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Jason Brownlee ["Q-01 Who don & # 039 ; t follow can i please elaborate ? ?"] "
Jason Brownlee ["Q-02 Who can i please elaborate ? ?"] "
Jason Brownlee ["Q-03 Who please elaborate ? ?"] "
Use Classification Machine Learning Algorithms ["Q-01 Comment on How to what U U N N N in Weka by Jason Brownlee Sorry you don & # 039 ; t follow can i please elaborate ? ?"] "
don't ["Q-02 Comment on How to use Classification Machine Learning Algorithms in Weka by Jason Brownlee Sorry you don & # 039 ; what follow can please elaborate ? ?"] "
Jason Brownlee ["Q-03 Who don & # 039 ; t follow can i please elaborate ? ?"] "
Jason Brownlee ["Q-04 Who can i please elaborate ? ?"] "
Jason Brownlee Sorry I don't ["Q-05 Who please elaborate ? ?"] "
don't ["Q-06 ]
Jason Brownlee ["Q-01 Who don & # 039 ; t follow can i please elaborate ? ?"] "
Jason Brownlee ["Q-02 Who can i please elaborate ? ?"] "
Jason Brownlee ["Q-03 Who please elaborate ? ?"] "
Use Classification Machine Learning Algorithms ["Q-01 Comment on How to what U U N N N in Weka by Jason Brownlee Sorry you don & # 039 ; t follow can i please elaborate ? ?"] "
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Jason Brownlee ["Q-03 Who don & # 039 ; t follow can i please elaborate ? ?"] "
Jason Brownlee ["Q-04 Who can i please elaborate ? ?"] "
Jason Brownlee Sorry I don't ["Q-05 Who please elaborate ? ?"] "
don't ["Q-06 ]
Laser Printing for Rapid Fabrication of Waterproof E-Textiles So-called \u201csmart fabrics ["Q-01 Who \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
Laser Printing ["Q-02 Who integrated Rapid Fabrication o you the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
researchers ["Q-03 Who have been working on new ways to improve their design and fabrication ?"] "
RMIT University in Australia ["Q-04 Who have done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
Thekkakara a researcher in RMIT\u2019s School of Science ["Q-05 Who said ?"] "
textile embedded ["Q-06 What does Litty Thekkakara a researcher from Rmit University in Australia holds with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher from RMIT University in Australia ["Q-07 Who holds a textile embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-08 Who embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-09 Who developed using a new laser - printing process she and her team invented ?"] "
her team ["Q-10 Who invented ?"] "
Source RMIT ["Q-11 Who is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Source RMIT ["Q-12 Who is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
project.\u201cBy ["Q-13 What \u201c by solving solving storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
project.\u201cBy ["Q-14 Who solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
e-textiles ["Q-15 Who hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Thekkakara ["Q-16 Who said in a press statement ?"] "
Source RMIT ["Q-17 What printing the Powerspecifically Thekkakara and her colleagues printing for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
alternative method ["Q-18 What is the invention to current processes for developing smart textiles which have which have some limitations she said ?"] "
The invention ["Q-19 Who is an alternative method to current processes for developing smart textiles which have which have some limitations she said ?"] "
Source RMIT ["Q-20 Who developing smart textiles which have which have some limitations she said ?"] "
a researcher in RMIT\u2019s School of Science ["Q-21 Who said ?"] "
electronic components ["Q-22 Who also can be in danger of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
electronic components ["Q-23 Who come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
DurableThe ["Q-24 Who added ?"] "
their invention ["Q-25 What did washable and Durablethe team tested by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe team ["Q-26 Who tested their invention by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
DurableThe ["Q-27 Who connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe ["Q-28 What tests analyzing analyzing of the fabric showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
DurableThe ["Q-29 Whom tests analyzing the performance of the fabric analyzing remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Tests ["Q-30 Who analyzing relatively stable and efficient at v J it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
the fabric ["Q-31 Who remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science ["Q-32 Who said ?"] "
the performance of the fabric showed it remained relatively stable and efficient at various temperatures ["Q-33 What did Researchers reported in an article in the journal Scientific Reports ?"] "
Researchers ["Q-34 Who reported these findings in an article in the journal Scientific Reports ?"] "
e-textile ["Q-35 Who being used in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
novel wearable technology ["Q-36 Who being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-37 How much the laser - printing method also paves t N way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
freelance writer ["Q-38 What is Elizabeth Montalbano who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-39 What is Elizabeth Montalbano a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-40 Who is a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-41 What has she lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-42 Who has lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-43 Who worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-44 Who enjoys surfing traveling music yoga and cooking ?"] "
Portugal ["Q-45 Where she currently resides in a village on the southwest coast ?"] "
Elizabeth Montalbano ["Q-46 Who currently resides in a village on the southwest coast of Portugal ?"] "
Manufacturing Minneapolis ["Q-47 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
industry leaders ["Q-48 Who including manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! . packaging automation robotics medical technology and more ?"] "
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis connects you with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology ["Q-49 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-50 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-51 Who can learn contribute and create solutions to move the industry forward ?"] "
them ["Q-01 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or within whom did health - monitoring technology integrated integrated are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
health-monitoring ["Q-02 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or of what did health - monitoring technology integrated within them integrated the wave for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
textile design ["Q-03 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or for what did health - monitoring technology integrated within them integrated the wave of the future which is why researchers have been working on new ways to improve their design and fabrication ?"] "
new ways ["Q-04 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why on what have researchers been working to improve their design and fabrication ?"] "
sensing wireless communication ["Q-05 Laser Printing for Rapid Fabrication of Waterproof E - textiles what So - called \u201c smart fabrics \u201d that have sensing or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
health-monitoring technology integrated within them are the wave ["Q-06 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or what did health - monitoring technology integrated within them integrated of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
wave ["Q-07 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why what have researchers been working on new ways to improve their design and fabrication ?"] "
wave ["Q-08 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why what have researchers been working on new ways to improve and fabrication ?"] "
Laser Printing for Rapid Fabrication of Waterproof E-Textiles So-called \u201csmart fabrics ["Q-09 Who \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
Laser Printing ["Q-010 Who integrated Rapid Fabrication o you the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
researchers ["Q-011 Who have been working on new ways to improve their design and fabrication ?"] "
Design & ["Q-012 ]
new technology ["Q-013 Now that what have a team from Rmit University in Australia done just that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
a battery researchers said ["Q-014 Now for what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need said ?"] "
textile design ["Q-015 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
textile design which is why researchers have been working on new ways to improve their design and fabrication.Now a team from RMIT University in Australia have done just that with new technology that can rapidly fabricate waterproof ["Q-016 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly f N smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
textile design ["Q-017 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that p you for a battery researchers said ?"] "
RMIT University in Australia ["Q-018 Who have done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
Litty Thekkakara ["Q-019 Who said ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , energy-storage devices " ["Q-021 Litty Thekkakara a researcher from Rmit University in Australia holds with what did a textile embedded developed using a new laser - printing process she and her team invented ?"] "
textile embedded ["Q-022 What does Litty Thekkakara a researcher from Rmit University in Australia holds with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
laser-printing process ["Q-023 Litty Thekkakara a researcher from Rmit University in Australia holds a textile embedded with what developed energy - storage devices using and her team invented ?"] "
her team ["Q-024 Litty Thekkakara a researcher from Rmit University in Australia holds a textile embedded with energy - storage devices developed using a new laser - printing process she and whose team invented ?"] "
Litty Thekkakara a researcher from RMIT University in Australia ["Q-025 Who holds a textile embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-026 Who embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara ["Q-027 Who developed using a new laser - printing process she and her team invented ?"] "
Source RMIT ["Q-028 Who invented ?"] "
10-by-10 centimeter waterproof ["Q-029 ]
developing smart textiles ["Q-030 ( Source Rmit ) indeed to what is this one of the challenges smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
e-textiles ["Q-031 ( Source Rmit ) indeed of what is this one to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement ["Q-032 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden in what is the wearer or user - friendly said Litty Thekkakara a researcher s School of Science who worked on the project ?"] "
School of Science ["Q-033 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said of what School who worked on the project ?"] "
project.\u201cBy ["Q-034 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden on what is the wearer or user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked ?"] "
one ["Q-035 ( Source Rmit ) indeed what is this of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
smart textiles ["Q-036 ( Source Rmit ) indeed is this one of the challenges to developing that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles ["Q-037 ( Source Rmit ) indeed is this one of the challenges to developing smart textiles \u2014 a power source that d N burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles ["Q-038 ( Source Rmit ) indeed what is this one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t b you or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Litty Thekkakara a researcher ["Q-039 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden what is the wearer or user - friendly said in Rmit \u2019 s School of Science who worked on the project ?"] "
Source RMIT ["Q-040 Who is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
her team invented. (Source RMIT ["Q-041 Who is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Design & Manufacturing MinneapolisThe ["Q-042 ]
energy ["Q-043 \u201c by solving the energy to what storage - related challenges of e - textiles you hope next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
project.\u201cBy ["Q-044 \u201c by solving solving the energy storage - related challenges hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
wearable technology ["Q-045 \u201c by solving the energy of what storage - related challenges of e - textiles you hope to power the next generation and intelligent clothing \u201d she said in a press statement ?"] "
press statement ["Q-046 \u201c by solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and in what did intelligent clothing \u201d she said ?"] "
project.\u201cBy ["Q-047 What \u201c by solving solving storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy ["Q-048 Who solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
e-textiles ["Q-049 Who hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Thekkakara ["Q-050 Who said in a press statement ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , fabricating " ["Q-052 For what printing the Powerspecifically Thekkakara and her colleagues printing a method 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
graphene supercapacitors ["Q-053 Printing the Powerspecifically Thekkakara and her colleagues have developed with what a method for fabricating fabricating a 10-by-10 centimeter waterproof flexible textile patch directly laser - printed onto the fabric ?"] "
fabric ["Q-054 Printing the Powerspecifically Thekkakara and her colleagues have developed onto what a method for fabricating fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed ?"] "
Source RMIT ["Q-055 What printing the Powerspecifically Thekkakara and her colleagues printing for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
a method for fabricating a 10-by-10 centimeter waterproof ["Q-056 Printing the Powerspecifically Thekkakara and her colleagues have developed what a method for fabricating fabricating flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
her colleagues ["Q-057 Printing the Powerspecifically Thekkakara and whose colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
10-by-10 ["Q-058 ]
said.\u201cCurrent ["Q-059 To what is the invention an alternative method for developing smart textiles which have which have some limitations she said ?"] "
said.\u201cCurrent ["Q-060 For what is the invention an alternative method to current processes smart textiles which have which have some limitations she said ?"] "
alternative method ["Q-061 What is the invention to current processes for developing smart textiles which have which have some limitations she said ?"] "
smart textiles ["Q-062 The invention is an alternative method to what current processes for developing developing which have which have some limitations she said ?"] "
limitations she said.\u201cCurrent ["Q-063 The invention is an alternative method to what current processes for developing developing smart textiles which have which have said ?"] "
said.\u201cCurrent ["Q-064 Who is an alternative method to current processes for developing smart textiles which have which have some limitations she said ?"] "
Source RMIT ["Q-065 Who developing smart textiles which have which have some limitations she said ?"] "
Litty Thekkakara ["Q-066 Who said ?"] "
10-by-10 centimeter waterproof ["Q-067 ]
garments ["Q-068 \u201c Current approaches to smart into what textile energy storage like stitching stitching batteries or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
press statement ["Q-069 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d in what did Thekkakara said ?"] "
stitching batteries ["Q-070 \u201c Current approaches to smart what textile energy storage like stitching stitching into garments or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
said.\u201cCurrent ["Q-071 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using stitching can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
cumbersome ["Q-072 \u201c Current approaches to smart what textile energy storage like stitching batteries into garments or using e - fibers stitching and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
heavy ["Q-073 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and what heavy and can also have \u201d Thekkakara said in a press statement ?"] "
said.\u201cCurrent ["Q-074 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and heavy and can also have whom capacity issues \u201d N said in a press statement ?"] "
Washable and DurableThe ["Q-075 ]
danger ["Q-076 In what can the electronic components also be of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
short circuiting ["Q-077 Of what can the electronic components also be in danger or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
contact ["Q-078 The electronic components also can be in danger of short circuiting or failing when in what do they come with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
sweat ["Q-079 The electronic components also can be in danger of short circuiting or failing when with what do they come in contact or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
the environment ["Q-080 The electronic components also can be in danger of short circuiting or failing when from what do they come in contact with sweat or moisture if the textile isn \u2019 t waterproof she added ?"] "
waterproof she added ["Q-081 The electronic components also can be in danger of short circuiting or failing when if what do they come in contact with sweat or moisture from the environment added ?"] "
electronic components ["Q-082 Who also can be in danger of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
electronic components ["Q-083 Who come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
her colleagues ["Q-084 Who added ?"] "
Washable and DurableThe ["Q-085 ]
connecting the supercapacitor ["Q-086 By what did washable and Durablethe team tested their invention with a solar cell to create a self - powering washable smart fabric ?"] "
a solar cell ["Q-087 Washable and Durablethe team tested with what their invention by connecting connecting the supercapacitor to create a self - powering washable smart fabric ?"] "
their invention ["Q-088 What did washable and Durablethe team tested by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
the supercapacitor ["Q-089 Washable and Durablethe team tested what their invention by connecting connecting with a solar cell to create a self - powering washable smart fabric ?"] "
a self-powering washable smart fabric ["Q-090 Washable and Durablethe team tested what their invention by connecting connecting the supercapacitor with a solar cell to create ?"] "
Washable and DurableThe ["Q-091 Who tested their invention by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe team ["Q-092 Who connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
10-by-10 centimeter waterproof flexible textile patch ["Q-093 ]
Washable and DurableThe team tested their invention by connecting the supercapacitor with a solar cell to create a self-powering washable smart fabric. Tests analyzing the performance of the fabric ["Q-094 Of what tests analyzing analyzing the performance showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
various temperatures ["Q-095 Tests analyzing the performance of the fabric showed at what did it remained relatively stable and efficient and under mechanical stress researchers said ?"] "
mechanical stress researchers ["Q-096 Tests analyzing the performance of the fabric showed under what did it remained relatively stable and efficient at various temperatures and said ?"] "
Washable and DurableThe ["Q-097 What tests analyzing analyzing of the fabric showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Washable and DurableThe ["Q-098 Whom tests analyzing the performance of the fabric analyzing remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Tests ["Q-099 Who analyzing relatively stable and efficient at v J it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
the fabric ["Q-0100 Who remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science ["Q-0101 Who said ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , an article " ["Q-0103 In what did Researchers reported these findings in the journal Scientific Reports ?"] "
journal Scientific Reports ["Q-0104 In what did Researchers reported these findings in an article ?"] "
Tests analyzing the performance of the fabric showed it remained relatively stable and efficient at various temperatures ["Q-0105 What did Researchers reported in an article in the journal Scientific Reports ?"] "
Researchers ["Q-0106 Who reported these findings in an article in the journal Scientific Reports ?"] "
PowerSpecifically ["Q-0107 ]
novel wearable technology ["Q-0108 The team envisions in what being the e - textile being used used which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
consumer-fitness applications ["Q-0109 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
specialized clothing ["Q-0110 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only for consumer - fitness applications but also in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
wearable technology ["Q-0111 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors and safety tracking respectively ?"] "
the e-textile ["Q-0112 The team what e e N N N in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
the e-textile ["Q-0113 The team envisions what being the e - textile being used used in novel wearable technology which is not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
e-textile ["Q-0114 Who being used in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
novel wearable technology ["Q-0115 Who being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
Washable and DurableThe ["Q-0116 ]
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0117 The laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0118 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0119 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in did t D process itself said Min Gu Rmit honorary professor distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0120 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0121 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0122 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0123 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0124 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0125 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0126 The laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
Wearable Tech ["Q-0127 For what the laser - printing method also paves t D way of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on multifocal fabrication a
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0128 Of what the laser - printing method also paves t D way for new more advanced fabrication that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster rol
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0129 In what the laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D
intelligence ["Q-0130 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate did intelligence in the process itself said Min Gu Rmit honorary professor distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on
intelligence ["Q-0131 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate at what did intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on mul
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0132 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at of what University for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use"
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0133 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at for what University of Shanghai a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0134 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t"
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0135 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at of what University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the us
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0136 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at for what University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0137 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said for what did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0138 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c i
Wearable Tech ["Q-0139 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said for what did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0140 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0141 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0142 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c with what it also"
advanced laser printing based ["Q-0143 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with of what use on multifocal fabrica
multifocal fabrication ["Q-0144 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of on what did advanced"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0145 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
multifocal ["Q-0146 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing based on
the way for new more advanced fabrication of next-generation smart textiles that can integrate intelligence in the process itself said Min Gu RMIT honorary professor and distinguished professor at the University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0147 The laser - printing method also paves whose way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Desig
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0148 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in whose process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0149 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor whose distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0150 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at whose University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with
OLEDs ["Q-0151 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science whose Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing based on
Wearable Tech ["Q-0152 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash whose Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing bas
Wearable Tech ["Q-0153 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens whose possibility for faster roll - to - roll fabrication with t D use of advanced laser printing bas
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0154 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0155 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0156 T how much the laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u2
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0157 T how much the laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u2
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0158 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in a how much did t D process itself said Min Gu Rmit honorary professor distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0159 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said t how much did Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0160 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said a how much did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0161 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said a how much did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u20
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0162 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c t"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0163 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c t"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0164 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0165 How much the laser - printing method also paves t N way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0166 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in how much t t N N N process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u20
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0167 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor how much a a D D D distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0168 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at how much t t N N N University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Weara
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0169 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science how much a a D D D Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0170 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash how much a a D D D Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0171 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c how"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0172 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0173 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
10-by-10 ["Q-0174 ]
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20 years ["Q-0176 Than what is Elizabeth Montalbano a freelance writer who has written about technology and culture for more ?"] "
freelance writer ["Q-0177 What is Elizabeth Montalbano who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-0178 What is Elizabeth Montalbano a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-0179 Who is a freelance writer who has written about technology and culture for more than 20 years ?"] "
20 years ["Q-0180 Than how much is Elizabeth Montalbano a freelance writer who has written about technology and culture for more years ?"] "
10-by-10 centimeter waterproof ["Q-0181 ]
professional journalist ["Q-0182 She has lived as what did and worked in Phoenix San Francisco and New York City ?"] "
Phoenix San Francisco ["Q-0183 She has lived where did and worked as a professional journalist and New York City ?"] "
Elizabeth Montalbano ["Q-0184 What has she lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-0185 Who has lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-0186 Who worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
10-by-10 centimeter waterproof ["Q-0187 ]
music yoga ["Q-0188 In her what free time she e N and cooking ?"] "
Elizabeth Montalbano ["Q-0189 Who enjoys surfing traveling music yoga and cooking ?"] "
10-by-10 ["Q-0190 ]
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Elizabeth Montalbano ["Q-0194 Who currently resides in a village on the southwest coast of Portugal ?"] "
10-by-10 ["Q-0195 ]
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top industry ["Q-0200 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with what top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing including medical technology and more ?"] "
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10-by-10 centimeter waterproof flexible textile patch ["Q-0203 ]
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis connects you with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology ["Q-0204 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
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exhibitors engineers executives and thought leaders ["Q-0209 Who can learn contribute and create solutions to move the industry forward ?"] "
10-by-10 centimeter waterproof flexible textile patch ["Q-0210 ]
Washable and DurableThe ["Q-0211 ]
Laser Printing for Rapid Fabrication of Waterproof E-Textiles So-called \u201csmart fabrics ["Q-01 Who \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
Laser Printing ["Q-02 Who integrated Rapid Fabrication o you the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
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RMIT University in Australia ["Q-04 Who have done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
Thekkakara a researcher in RMIT\u2019s School of Science ["Q-05 Who said ?"] "
textile embedded ["Q-06 What does Litty Thekkakara a researcher from Rmit University in Australia holds with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher from RMIT University in Australia ["Q-07 Who holds a textile embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-08 Who embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-09 Who developed using a new laser - printing process she and her team invented ?"] "
her team ["Q-10 Who invented ?"] "
Source RMIT ["Q-11 Who is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Source RMIT ["Q-12 Who is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
project.\u201cBy ["Q-13 What \u201c by solving solving storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
project.\u201cBy ["Q-14 Who solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
e-textiles ["Q-15 Who hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Thekkakara ["Q-16 Who said in a press statement ?"] "
Source RMIT ["Q-17 What printing the Powerspecifically Thekkakara and her colleagues printing for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
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The invention ["Q-19 Who is an alternative method to current processes for developing smart textiles which have which have some limitations she said ?"] "
Source RMIT ["Q-20 Who developing smart textiles which have which have some limitations she said ?"] "
a researcher in RMIT\u2019s School of Science ["Q-21 Who said ?"] "
electronic components ["Q-22 Who also can be in danger of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
electronic components ["Q-23 Who come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
DurableThe ["Q-24 Who added ?"] "
their invention ["Q-25 What did washable and Durablethe team tested by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe team ["Q-26 Who tested their invention by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
DurableThe ["Q-27 Who connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe ["Q-28 What tests analyzing analyzing of the fabric showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
DurableThe ["Q-29 Whom tests analyzing the performance of the fabric analyzing remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Tests ["Q-30 Who analyzing relatively stable and efficient at v J it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
the fabric ["Q-31 Who remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science ["Q-32 Who said ?"] "
the performance of the fabric showed it remained relatively stable and efficient at various temperatures ["Q-33 What did Researchers reported in an article in the journal Scientific Reports ?"] "
Researchers ["Q-34 Who reported these findings in an article in the journal Scientific Reports ?"] "
e-textile ["Q-35 Who being used in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
novel wearable technology ["Q-36 Who being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-37 How much the laser - printing method also paves t N way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
freelance writer ["Q-38 What is Elizabeth Montalbano who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-39 What is Elizabeth Montalbano a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-40 Who is a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-41 What has she lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-42 Who has lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-43 Who worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-44 Who enjoys surfing traveling music yoga and cooking ?"] "
Portugal ["Q-45 Where she currently resides in a village on the southwest coast ?"] "
Elizabeth Montalbano ["Q-46 Who currently resides in a village on the southwest coast of Portugal ?"] "
Manufacturing Minneapolis ["Q-47 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
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Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis connects you with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology ["Q-49 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-50 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-51 Who can learn contribute and create solutions to move the industry forward ?"] "
them ["Q-01 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or within whom did health - monitoring technology integrated integrated are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
health-monitoring ["Q-02 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or of what did health - monitoring technology integrated within them integrated the wave for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
textile design ["Q-03 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or for what did health - monitoring technology integrated within them integrated the wave of the future which is why researchers have been working on new ways to improve their design and fabrication ?"] "
new ways ["Q-04 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why on what have researchers been working to improve their design and fabrication ?"] "
sensing wireless communication ["Q-05 Laser Printing for Rapid Fabrication of Waterproof E - textiles what So - called \u201c smart fabrics \u201d that have sensing or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
health-monitoring technology integrated within them are the wave ["Q-06 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or what did health - monitoring technology integrated within them integrated of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
wave ["Q-07 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why what have researchers been working on new ways to improve their design and fabrication ?"] "
wave ["Q-08 Laser Printing for Rapid Fabrication of Waterproof E - textiles so - called \u201c smart fabrics \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why what have researchers been working on new ways to improve and fabrication ?"] "
Laser Printing for Rapid Fabrication of Waterproof E-Textiles So-called \u201csmart fabrics ["Q-09 Who \u201d that have sensing wireless communication or health - monitoring technology integrated within them are the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
Laser Printing ["Q-010 Who integrated Rapid Fabrication o you the wave of the future for textile design which is why researchers have been working on new ways to improve their design and fabrication ?"] "
researchers ["Q-011 Who have been working on new ways to improve their design and fabrication ?"] "
Design & ["Q-012 ]
new technology ["Q-013 Now that what have a team from Rmit University in Australia done just that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
a battery researchers said ["Q-014 Now for what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need said ?"] "
textile design ["Q-015 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
textile design which is why researchers have been working on new ways to improve their design and fabrication.Now a team from RMIT University in Australia have done just that with new technology that can rapidly fabricate waterproof ["Q-016 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly f N smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
textile design ["Q-017 Now what have a team from Rmit University in Australia done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that p you for a battery researchers said ?"] "
RMIT University in Australia ["Q-018 Who have done just that with new technology that can rapidly fabricate waterproof smart textiles with integrated energy - harvesting and storage technology that precludes the need for a battery researchers said ?"] "
Litty Thekkakara ["Q-019 Who said ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , energy-storage devices " ["Q-021 Litty Thekkakara a researcher from Rmit University in Australia holds with what did a textile embedded developed using a new laser - printing process she and her team invented ?"] "
textile embedded ["Q-022 What does Litty Thekkakara a researcher from Rmit University in Australia holds with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
laser-printing process ["Q-023 Litty Thekkakara a researcher from Rmit University in Australia holds a textile embedded with what developed energy - storage devices using and her team invented ?"] "
her team ["Q-024 Litty Thekkakara a researcher from Rmit University in Australia holds a textile embedded with energy - storage devices developed using a new laser - printing process she and whose team invented ?"] "
Litty Thekkakara a researcher from RMIT University in Australia ["Q-025 Who holds a textile embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara a researcher ["Q-026 Who embedded with energy - storage devices developed using a new laser - printing process she and her team invented ?"] "
Litty Thekkakara ["Q-027 Who developed using a new laser - printing process she and her team invented ?"] "
Source RMIT ["Q-028 Who invented ?"] "
10-by-10 centimeter waterproof ["Q-029 ]
developing smart textiles ["Q-030 ( Source Rmit ) indeed to what is this one of the challenges smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
e-textiles ["Q-031 ( Source Rmit ) indeed of what is this one to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement ["Q-032 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden in what is the wearer or user - friendly said Litty Thekkakara a researcher s School of Science who worked on the project ?"] "
School of Science ["Q-033 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said of what School who worked on the project ?"] "
project.\u201cBy ["Q-034 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden on what is the wearer or user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked ?"] "
one ["Q-035 ( Source Rmit ) indeed what is this of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
smart textiles ["Q-036 ( Source Rmit ) indeed is this one of the challenges to developing that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles ["Q-037 ( Source Rmit ) indeed is this one of the challenges to developing smart textiles \u2014 a power source that d N burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles ["Q-038 ( Source Rmit ) indeed what is this one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t b you or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Litty Thekkakara a researcher ["Q-039 ( Source Rmit ) indeed this is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden what is the wearer or user - friendly said in Rmit \u2019 s School of Science who worked on the project ?"] "
Source RMIT ["Q-040 Who is one of the challenges to developing smart textiles \u2014 a power source that doesn \u2019 t burden the wearer or is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
her team invented. (Source RMIT ["Q-041 Who is user - friendly said Litty Thekkakara a researcher in Rmit \u2019 s School of Science who worked on the project ?"] "
Design & Manufacturing MinneapolisThe ["Q-042 ]
energy ["Q-043 \u201c by solving the energy to what storage - related challenges of e - textiles you hope next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
project.\u201cBy ["Q-044 \u201c by solving solving the energy storage - related challenges hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
wearable technology ["Q-045 \u201c by solving the energy of what storage - related challenges of e - textiles you hope to power the next generation and intelligent clothing \u201d she said in a press statement ?"] "
press statement ["Q-046 \u201c by solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and in what did intelligent clothing \u201d she said ?"] "
project.\u201cBy ["Q-047 What \u201c by solving solving storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy ["Q-048 Who solving the energy storage - related challenges of e - textiles you hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
e-textiles ["Q-049 Who hope to power the next generation of wearable technology and intelligent clothing \u201d she said in a press statement ?"] "
Thekkakara ["Q-050 Who said in a press statement ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , fabricating " ["Q-052 For what printing the Powerspecifically Thekkakara and her colleagues printing a method 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
graphene supercapacitors ["Q-053 Printing the Powerspecifically Thekkakara and her colleagues have developed with what a method for fabricating fabricating a 10-by-10 centimeter waterproof flexible textile patch directly laser - printed onto the fabric ?"] "
fabric ["Q-054 Printing the Powerspecifically Thekkakara and her colleagues have developed onto what a method for fabricating fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed ?"] "
Source RMIT ["Q-055 What printing the Powerspecifically Thekkakara and her colleagues printing for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
a method for fabricating a 10-by-10 centimeter waterproof ["Q-056 Printing the Powerspecifically Thekkakara and her colleagues have developed what a method for fabricating fabricating flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
her colleagues ["Q-057 Printing the Powerspecifically Thekkakara and whose colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser - printed onto the fabric ?"] "
10-by-10 ["Q-058 ]
said.\u201cCurrent ["Q-059 To what is the invention an alternative method for developing smart textiles which have which have some limitations she said ?"] "
said.\u201cCurrent ["Q-060 For what is the invention an alternative method to current processes smart textiles which have which have some limitations she said ?"] "
alternative method ["Q-061 What is the invention to current processes for developing smart textiles which have which have some limitations she said ?"] "
smart textiles ["Q-062 The invention is an alternative method to what current processes for developing developing which have which have some limitations she said ?"] "
limitations she said.\u201cCurrent ["Q-063 The invention is an alternative method to what current processes for developing developing smart textiles which have which have said ?"] "
said.\u201cCurrent ["Q-064 Who is an alternative method to current processes for developing smart textiles which have which have some limitations she said ?"] "
Source RMIT ["Q-065 Who developing smart textiles which have which have some limitations she said ?"] "
Litty Thekkakara ["Q-066 Who said ?"] "
10-by-10 centimeter waterproof ["Q-067 ]
garments ["Q-068 \u201c Current approaches to smart into what textile energy storage like stitching stitching batteries or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
press statement ["Q-069 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d in what did Thekkakara said ?"] "
stitching batteries ["Q-070 \u201c Current approaches to smart what textile energy storage like stitching stitching into garments or using e - fibers can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
said.\u201cCurrent ["Q-071 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using stitching can be cumbersome and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
cumbersome ["Q-072 \u201c Current approaches to smart what textile energy storage like stitching batteries into garments or using e - fibers stitching and heavy and can also have capacity issues \u201d Thekkakara said in a press statement ?"] "
heavy ["Q-073 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and what heavy and can also have \u201d Thekkakara said in a press statement ?"] "
said.\u201cCurrent ["Q-074 \u201c Current approaches to smart textile energy storage like stitching batteries into garments or using e - fibers can be cumbersome and heavy and can also have whom capacity issues \u201d N said in a press statement ?"] "
Washable and DurableThe ["Q-075 ]
danger ["Q-076 In what can the electronic components also be of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
short circuiting ["Q-077 Of what can the electronic components also be in danger or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
contact ["Q-078 The electronic components also can be in danger of short circuiting or failing when in what do they come with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
sweat ["Q-079 The electronic components also can be in danger of short circuiting or failing when with what do they come in contact or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
the environment ["Q-080 The electronic components also can be in danger of short circuiting or failing when from what do they come in contact with sweat or moisture if the textile isn \u2019 t waterproof she added ?"] "
waterproof she added ["Q-081 The electronic components also can be in danger of short circuiting or failing when if what do they come in contact with sweat or moisture from the environment added ?"] "
electronic components ["Q-082 Who also can be in danger of short circuiting or failing when they come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
electronic components ["Q-083 Who come in contact with sweat or moisture from the environment if the textile isn \u2019 t waterproof she added ?"] "
her colleagues ["Q-084 Who added ?"] "
Washable and DurableThe ["Q-085 ]
connecting the supercapacitor ["Q-086 By what did washable and Durablethe team tested their invention with a solar cell to create a self - powering washable smart fabric ?"] "
a solar cell ["Q-087 Washable and Durablethe team tested with what their invention by connecting connecting the supercapacitor to create a self - powering washable smart fabric ?"] "
their invention ["Q-088 What did washable and Durablethe team tested by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
the supercapacitor ["Q-089 Washable and Durablethe team tested what their invention by connecting connecting with a solar cell to create a self - powering washable smart fabric ?"] "
a self-powering washable smart fabric ["Q-090 Washable and Durablethe team tested what their invention by connecting connecting the supercapacitor with a solar cell to create ?"] "
Washable and DurableThe ["Q-091 Who tested their invention by connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
Washable and DurableThe team ["Q-092 Who connecting the supercapacitor with a solar cell to create a self - powering washable smart fabric ?"] "
10-by-10 centimeter waterproof flexible textile patch ["Q-093 ]
Washable and DurableThe team tested their invention by connecting the supercapacitor with a solar cell to create a self-powering washable smart fabric. Tests analyzing the performance of the fabric ["Q-094 Of what tests analyzing analyzing the performance showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
various temperatures ["Q-095 Tests analyzing the performance of the fabric showed at what did it remained relatively stable and efficient and under mechanical stress researchers said ?"] "
mechanical stress researchers ["Q-096 Tests analyzing the performance of the fabric showed under what did it remained relatively stable and efficient at various temperatures and said ?"] "
Washable and DurableThe ["Q-097 What tests analyzing analyzing of the fabric showed it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Washable and DurableThe ["Q-098 Whom tests analyzing the performance of the fabric analyzing remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Tests ["Q-099 Who analyzing relatively stable and efficient at v J it remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
the fabric ["Q-0100 Who remained relatively stable and efficient at various temperatures and under mechanical stress researchers said ?"] "
Litty Thekkakara a researcher in RMIT\u2019s School of Science ["Q-0101 Who said ?"] "
Litty Thekkakara a researcher from RMIT University in Australia holds a textile embedded with energy-storage devices developed using a new laser-printing process she and her team invented. (Source RMIT) Indeed this is one of the challenges to developing smart textiles\u2014a power source that doesn\u2019t burden the wearer or is user-friendly said Litty Thekkakara a researcher in RMIT\u2019s School of Science who worked on the project.\u201cBy solving the energy storage-related challenges of e-textiles we hope to power the next generation of wearable technology and intelligent clothing\u201d she said in a press statement.Printing the PowerSpecifically Thekkakara and her colleagues have developed a method for fabricating a 10-by-10 centimeter waterproof flexible textile patch with graphene supercapacitors directly laser-printed onto the fabric.The invention is an alternative method to current processes for developing smart textiles which have which have some limitations she said.\u2 , an article " ["Q-0103 In what did Researchers reported these findings in the journal Scientific Reports ?"] "
journal Scientific Reports ["Q-0104 In what did Researchers reported these findings in an article ?"] "
Tests analyzing the performance of the fabric showed it remained relatively stable and efficient at various temperatures ["Q-0105 What did Researchers reported in an article in the journal Scientific Reports ?"] "
Researchers ["Q-0106 Who reported these findings in an article in the journal Scientific Reports ?"] "
PowerSpecifically ["Q-0107 ]
novel wearable technology ["Q-0108 The team envisions in what being the e - textile being used used which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
consumer-fitness applications ["Q-0109 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
specialized clothing ["Q-0110 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only for consumer - fitness applications but also in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
wearable technology ["Q-0111 The team envisions the e - textile being used in novel wearable technology which is currently for what being being developed developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors and safety tracking respectively ?"] "
the e-textile ["Q-0112 The team what e e N N N in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
the e-textile ["Q-0113 The team envisions what being the e - textile being used used in novel wearable technology which is not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
e-textile ["Q-0114 Who being used in novel wearable technology which is currently being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
novel wearable technology ["Q-0115 Who being developed not only for consumer - fitness applications but also for specialized clothing in medical and defense sectors for health monitoring and safety tracking respectively ?"] "
Washable and DurableThe ["Q-0116 ]
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0117 The laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0118 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0119 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in did t D process itself said Min Gu Rmit honorary professor distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0120 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0121 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0122 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0123 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0124 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0125 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0126 The laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
Wearable Tech ["Q-0127 For what the laser - printing method also paves t D way of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on multifocal fabrication a
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0128 Of what the laser - printing method also paves t D way for new more advanced fabrication that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster rol
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0129 In what the laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D
intelligence ["Q-0130 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate did intelligence in the process itself said Min Gu Rmit honorary professor distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on
intelligence ["Q-0131 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate at what did intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based on mul
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0132 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at of what University for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use"
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0133 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at for what University of Shanghai a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0134 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t"
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0135 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at of what University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the us
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0136 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at for what University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0137 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said for what did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0138 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c i
Wearable Tech ["Q-0139 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said for what did Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors \u201c it also opens t D possibility for faster roll - to - roll fabrication with the use of advanced laser printing based
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0140 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0141 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0142 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c with what it also"
advanced laser printing based ["Q-0143 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with of what use on multifocal fabrica
multifocal fabrication ["Q-0144 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of on what did advanced"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0145 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it als
multifocal ["Q-0146 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in the process itself said Min Gu Rmit honorary professor a C distinguished professor at the University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing based on
the way for new more advanced fabrication of next-generation smart textiles that can integrate intelligence in the process itself said Min Gu RMIT honorary professor and distinguished professor at the University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0147 The laser - printing method also paves whose way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Desig
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0148 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in whose process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0149 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor whose distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens
University of Shanghai for Science and TechnologyRELATED ARTICLESResearchers ["Q-0150 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at whose University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with
OLEDs ["Q-0151 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science whose Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing based on
Wearable Tech ["Q-0152 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash whose Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t D possibility for faster roll - to - roll fabrication with t D use of advanced laser printing bas
Wearable Tech ["Q-0153 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens whose possibility for faster roll - to - roll fabrication with t D use of advanced laser printing bas
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0154 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0155 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0156 T how much the laser - printing method also paves way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u2
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0157 T how much the laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u2
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0158 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in a how much did t D process itself said Min Gu Rmit honorary professor distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0159 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said t how much did Min Gu Rmit honorary professor a C distinguished professor at University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0160 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said a how much did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0161 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said a how much did Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell distinguished Waterproof Stretchable for Repeated Wash Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u20
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0162 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c t"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0163 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c t"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0164 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens"
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0165 How much the laser - printing method also paves t N way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0166 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in how much t t N N N process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u20
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0167 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor how much a a D D D distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0168 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at how much t t N N N University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Weara
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0169 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science how much a a D D D Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0170 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash how much a a D D D Usesmart Textiles Boost Data Connectivity Between Sensors for Wea
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0171 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c how"
OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0172 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart t N that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it also opens t
Simplify Design of OLEDs for Easy Printing Ultra-Thin Solar Cell is Waterproof Stretchable for Repeated Wash and UseSmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech ["Q-0173 The laser - printing method also paves t D way for new more advanced fabrication of next - generation smart textiles that can integrate intelligence in t D process itself said Min Gu Rmit honorary professor a C distinguished professor at t D University of Shanghai for Science a C Technologyrelated Articlesresearchers Simplify Design of Oleds for Easy Printing Ultra - thin Solar Cell is Waterproof Stretchable for Repeated Wash a C Usesmart Textiles Boost Data Connectivity Between Sensors for Wearable Tech \u201c it"
10-by-10 ["Q-0174 ]
technology ["Q-0175 About what is Elizabeth Montalbano a freelance writer who has written and culture for more than 20 years ?"] "
20 years ["Q-0176 Than what is Elizabeth Montalbano a freelance writer who has written about technology and culture for more ?"] "
freelance writer ["Q-0177 What is Elizabeth Montalbano who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-0178 What is Elizabeth Montalbano a freelance writer who has written about technology and culture for more than 20 years ?"] "
Elizabeth Montalbano ["Q-0179 Who is a freelance writer who has written about technology and culture for more than 20 years ?"] "
20 years ["Q-0180 Than how much is Elizabeth Montalbano a freelance writer who has written about technology and culture for more years ?"] "
10-by-10 centimeter waterproof ["Q-0181 ]
professional journalist ["Q-0182 She has lived as what did and worked in Phoenix San Francisco and New York City ?"] "
Phoenix San Francisco ["Q-0183 She has lived where did and worked as a professional journalist and New York City ?"] "
Elizabeth Montalbano ["Q-0184 What has she lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-0185 Who has lived and worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
Elizabeth Montalbano ["Q-0186 Who worked as a professional journalist in Phoenix San Francisco and New York City ?"] "
10-by-10 centimeter waterproof ["Q-0187 ]
music yoga ["Q-0188 In her what free time she e N and cooking ?"] "
Elizabeth Montalbano ["Q-0189 Who enjoys surfing traveling music yoga and cooking ?"] "
10-by-10 ["Q-0190 ]
a village ["Q-0191 In what she currently resides on the southwest coast of Portugal ?"] "
southwest coast ["Q-0192 On what she currently resides in a village of Portugal ?"] "
Portugal ["Q-0193 Where she currently resides in a village on the southwest coast ?"] "
Elizabeth Montalbano ["Q-0194 Who currently resides in a village on the southwest coast of Portugal ?"] "
10-by-10 ["Q-0195 ]
top industry experts ["Q-0196 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; with what i and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0197 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with in what top industry experts including including esign and manufacturing suppliers and industry leaders medical technology and more ?"] "
Manufacturing Minneapolis ["Q-0198 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; whom N with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0199 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with what top industry experts including including and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0200 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with what top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing including medical technology and more ?"] "
Manufacturing Minneapolis ["Q-0201 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
industry leaders ["Q-0202 Who including manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! . packaging automation robotics medical technology and more ?"] "
10-by-10 centimeter waterproof flexible textile patch ["Q-0203 ]
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis connects you with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology ["Q-0204 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-0205 This is the place where what exhibitors e N and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
thought leaders can learn contribute ["Q-0206 This is the place where exhibitors engineers executives and what can thought leaders learn and create solutions to move the industry forward ?"] "
industry forward ["Q-0207 This is the place where exhibitors engineers executives and what can thought leaders learn contribute and create solutions to move ?"] "
Manufacturing Minneapolis ["Q-0208 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-0209 Who can learn contribute and create solutions to move the industry forward ?"] "
10-by-10 centimeter waterproof flexible textile patch ["Q-0210 ]
Washable and DurableThe ["Q-0211 ]
collaborative robots ["Q-01 Who proliferating Machine f you to know who \u2019 s using t D robots and what tasks they \u2019 re doing ?"] "
Walter Vahey executive vice-president ["Q-02 Who \u2019 re doing ?"] "
Teradyne a company ["Q-03 Where caught Design News up with Walter Vahey executive vice - president that helps manufacturers gear up their automation ?"] "
Design News ["Q-04 Who caught up with Walter Vahey executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
manufacturers ["Q-05 Who gear up their automation ?"] "
robotics ["Q-06 What a real change in the companies that are deploying ?"] "
tools ["Q-07 What were for years robots only for the largest manufacturers ?"] "
years robots ["Q-08 What time were tools only for the largest manufacturers ?"] "
expensive care ["Q-09 What did they required and feeding in the form of integrators and programming ?"] "
the largest manufacturers ["Q-10 Who required expensive care and feeding in the form of integrators and programming ?"] "
Robots Taking On?Design News ["Q-11 Who programming ?"] "
collaborative robots ["Q-12 Who require configuration rather than programming and they can be quickly switched from task to task ?"] "
collaborative robots ["Q-13 Who programming configuration rather than programming and they can be quickly switched from task to task ?"] "
robot arms ["Q-14 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which p N and Mir a company that produces collaborative mobile robots ?"] "
collaborative mobile robots ["Q-15 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that p N ?"] "
Vahey ["Q-16 Who talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
Robots ["Q-17 Who are now within the investment reach of small manufacturers ?"] "
Robots are now within the investment reach of small manufacturers. Thats fueling a surge ["Q-18 What that s fueling fueling in the use of collaborative robots ?"] "
small manufacturers. Thats ["Q-19 Who fueling a surge in the use of collaborative robots ?"] "
Walter Vahey Companies ["Q-20 Who are pioneering the robot space ?"] "
Walter Vahey Companies ["Q-21 What they \u2019 N to a broad class of users and democratizing automation ?"] "
Walter Vahey Companies ["Q-22 Who democratizing automation ?"] "
small companies ["Q-23 Who is to figure out how to fulfill their orders ?"] "
tight labor market manufacturers ["Q-24 Who are facing more competition growing demand and higher expectations in quality ?"] "
labor market manufacturers ["Q-25 Who growing demand and higher expectations in quality ?"] "
UR ["Q-26 What can Manufacturer plug or Mir robots in very quickly ?"] "
Manufacturer ["Q-27 Who can plug Ur or Mir robots in very quickly ?"] "
UR or MiR robots ["Q-28 What is everything easy from the specs up front to ordering to quickly arranging and training ?"] "
Walter Vahey Companies ["Q-29 Who is easy from the specs up front to ordering to quickly arranging and training the robot ?"] "
collaborative robots ["Q-30 Who arranging easy from the robot ?"] "
Walter Vahey Companies ["Q-31 Who \u2019 the no programming and the robots have the flexibility to do a variety of applications ?"] "
\u2019s no programming and the robots ["Q-32 Who have the flexibility to do a variety of applications ?"] "
There\u2019s no programming ["Q-33 What is every customer dealing with labor challenges so now they \u2019 re deploying collaborative robots to fulfill demand with high quality ?"] "
high quality ["Q-34 What has the whole paradigm shifted now that me have a broader range of robot applications ?"] "
The whole paradigm ["Q-35 Who has shifted now that me have a broader range of robot applications ?"] "
Walter Vahey Companies ["Q-36 Who have a broader range of robot applications ?"] "
robot applications ["Q-37 Who can easily and quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
You ["Q-38 Who quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
automation plug ["Q-39 Who get product moving in hours or days rather than months ?"] "
get product ["Q-40 Who moving in hours or days rather than months ?"] "
change management a hurdle ["Q-41 What the issue of Change Managementdesign News is ? ?"] "
Change ManagementDesign News ["Q-42 Who is change management a hurdle ? ?"] "
workforce disruption?Walter Vahey We ["Q-43 Who seen that as an issue ?"] "
collaborative robots ["Q-44 Who fulfill demand at a higher quality level helps the manufacturers deploy ?"] "
robotics ["Q-45 Who deploy ?"] "
Design & ["Q-46 What it o you ?"] "
higher quality level ["Q-47 Who outweighs other challenges ?"] "
The application builder ["Q-48 Who help with the deployment and the manufacturers are making the change easily ?"] "
deployment and the manufacturers ["Q-49 Who are making the change easily ?"] "
Walter Vahey Companies ["Q-50 Who grew up as a supplier of electronic test equipment ?"] "
Walter Vahey Companies ["Q-51 Who emerging collaborative robot space ?"] "
change the equation ["Q-52 What do you see that as a way to c N for manufacturers making it faster and easier to deploy automation ?"] "
Walter Vahey Companies ["Q-53 Who see that as a way to change the equation for manufacturers making it faster and easier to deploy automation ?"] "
manufacturers ["Q-54 Who making it faster and easier to deploy automation ?"] "
Design News What about return on investment? Robotics ["Q-55 Who can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
small company/Walter Vahey The customers ["Q-56 Who are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
Walter Vahey ["Q-57 Who \u2019 re seeing it from 6 months to a year ?"] "
Manufacturing ["Q-58 What N for manufacturers ?"] "
Walter Vahey ["Q-59 Who \u2019 no a no brainer for manufacturers ?"] "
Walter Vahey ["Q-60 Who \u2019 re ready to jump in ?"] "
jump in.We work hard to make deployment less of an issue. We have an application builder ["Q-61 What you work hard to make less of an issue ?"] "
Design News ["Q-62 Who work hard to make deployment less of an issue ?"] "
application builder ["Q-63 What do you have and you use it to prepare for deployment ?"] "
MiR ["Q-64 Who have an application builder and you use it to prepare for deployment ?"] "
application builder ["Q-65 Who use it to prepare for deployment ?"] "
The new user ["Q-66 Who may have a pick - and - place operation ?"] "
the gripper ["Q-67 What they choose and you guide them to partners who make it easy to deploy ?"] "
pick-and-place operation ["Q-68 Who choose the gripper and you guide them to partners who make it easy to deploy ?"] "
the gripper and we ["Q-69 Who guide them to partners who make it easy to deploy ?"] "
customer ["Q-70 What is the whole object to get deployed rapidly so the automation doesn \u2019 t sit ?"] "
The whole object ["Q-71 Who is to get the customer deployed rapidly so the automation doesn \u2019 t sit ?"] "
the customer ["Q-72 Who deployed rapidly so the automation doesn \u2019 t sit ?"] "
MiR the robot ["Q-73 Who comes in and you find an easy application for the mobile device ?"] "
MiR ["Q-74 Who find an easy application for the mobile device ?"] "
robot ["Q-75 What do you take around the plant and map it ?"] "
MiR ["Q-76 Who take the robot around the plant and map it ?"] "
automation doesn\u2019t sit. With MiR the robot comes in and we find an easy application for the mobile device. We take the robot around the plant and map it. We\u2019ve work to guide customers through an application quickly and make the robot productive as soon as possible.There are hundreds of partners that work with UR and MiR providing grippers and end effectors ["Q-77 What you \u2019 N to guide customers through an application quickly and make the robot productive as soon as possible ?"] "
guide customers ["Q-78 What you \u2019 ve work to g N through an application quickly and make the robot productive as soon as possible ?"] "
guide customers ["Q-79 Who make the robot productive as soon as possible ?"] "
UR and MiR ["Q-80 Who providing grippers and end effectors ?"] "
a system ["Q-81 What do you have that customers can plug into ?"] "
UR and MiR ["Q-82 Who have a system that customers can plug into ?"] "
customers ["Q-83 Who can plug into ?"] "
Customer ["Q-84 Who can look at grippers from a wide range of companies ?"] "
the whole system deployed ["Q-85 What you work to get so they can quickly get the Roi ?"] "
whole system ["Q-86 What you work to get deployed so they can quickly get the Roi ?"] "
Robots Taking On?Design News ["Q-87 Who work to get the whole system deployed so they can quickly get the Roi ?"] "
whole system ["Q-88 Who deployed quickly get t D quickly get the Roi ?"] "
involved?Walter Vahey ["Q-89 What Tasks are in what on ? Design News Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
ROI.What Tasks ["Q-90 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what of what are tasks involved ? Walter Vahey there is a range ?"] "
involved?Walter Vahey ["Q-91 What what Tasks are on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-92 What Tasks are the Robots taking on ? what is Design News Who in the plant using and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-93 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what are tasks involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-94 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what what are tasks involved ? Walter Vahey there is of users ?"] "
involved?Walter Vahey ["Q-95 Who are the Robots taking on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
Robots Taking On?Design News ["Q-96 Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-97 Who are involved ? Walter Vahey there is a range of users ?"] "
Robot Democratization A Machine for Every Manufacturer With collaborative robots proliferating we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less ex , the person " ["Q-99 Who been doing and large t D best suited to train the robot ?"] "
train other robots ["Q-100 What that person can then t N ?"] "
the person ["Q-101 Who can then train other robots ?"] "
RELATED ARTICLESThis ["Q-102 What Related Articlesthis is americans Feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-103 What Related Articlesthis is How americans feel about Manufacturing in 2019 here Comes for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-104 What Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-105 Who is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
Design and Manufacturing 12 Robot Companies ["Q-106 Who are broad set of applications ?"] "
virtually any task ["Q-107 What you automate and any material movement ?"] "
RELATED ARTICLESThis ["Q-108 Who automate virtually any task and any material movement ?"] "
Walter Vahey ["Q-109 Who \u2019 s close ?"] "
doing machine learning grinding packing ["Q-110 What with Ur you \u2019 N pick - and - place repetitive tasks welding ?"] "
a range of users ["Q-111 What it \u2019 N of applications ?"] "
UR ["Q-112 Who \u2019 very a very broad set of applications ?"] "
Parts ["Q-113 Who going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ?"] "
moving robots ["Q-114 What you \u2019 N into warehousing and logistics space even large pieces of metal ?"] "
robots ["Q-115 Who moving and logistics s N and logistics space even large pieces of metal ?"] "
well suited ["Q-116 What are the robots for long runs of pallets of materials ?"] "
The robots ["Q-117 Who are well suited for long runs of pallets of materials ?"] "
automation ["Q-118 What has rob Spiegel covered and control for 19 years 17 of them for Design News ?"] "
Rob Spiegel ["Q-119 Who has covered automation and control for 19 years 17 of them for Design News ?"] "
supply chain technology ["Q-120 What has other topics he covered include alternative energy and cyber security ?"] "
Rob Spiegel ["Q-121 Who has covered include supply chain technology alternative energy and cyber security ?"] "
Robots Taking On?Design News ["Q-122 Who cyber security ?"] "
Rob Spiegel ["Q-123 Who was owner and publisher of the food magazine Chile Pepper ?"] "
Manufacturing Minneapolis ["Q-124 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
industry leaders ["Q-125 Who including manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! . packaging automation robotics medical technology and more ?"] "
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis ["Q-126 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-127 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-128 Who can learn contribute and create solutions to move the industry forward ?"] "
ROI.What Tasks ["Q-01 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using using robots and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-02 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using using robots and what tasks they \u2019 re doing ?"] "
we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less expensive they can be set up for production without programming and they can be quickly reconfigu , collaborative robots proliferating we wanted " ["Q-04 Robot Democratization A Machine for Every Manufacturer with what collaborative robots proliferating you proliferating to know who \u2019 N and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-05 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using t D robots and what what tasks they \u2019 N ?"] "
ROI.What Tasks ["Q-06 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using whose robots and what tasks they \u2019 re doing ?"] "
collaborative robots ["Q-07 Who proliferating Machine f you to know who \u2019 s using t D robots and what tasks they \u2019 re doing ?"] "
Walter Vahey ["Q-08 Who \u2019 re doing ?"] "
ROI.What Tasks ["Q-09 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 t how much s using using robots and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-010 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using how much t t N N N robots and what tasks they \u2019 re doing ?"] "
involved?Walter ["Q-011 ]
Walter Vahey ["Q-012 With what caught Design News up executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
Teradyne a company ["Q-013 Where caught Design News up with Walter Vahey executive vice - president that helps manufacturers gear up their automation ?"] "
executive vice-president ["Q-014 Design News caught up with Walter Vahey e N at Teradyne a company that helps manufacturers gear up their automation ?"] "
Walter Vahey ["Q-015 Design News caught up what vice - president at Teradyne a company that helps gear up their automation ?"] "
manufacturers gear up their automation ["Q-016 Design News caught up with Walter Vahey executive vice - president at Teradyne a company that helps what manufacturers gear ?"] "
Design News ["Q-017 Who caught up with Walter Vahey executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
manufacturers ["Q-018 Who gear up their automation ?"] "
1000-kilo payload ["Q-019 ]
companies ["Q-020 In what a real change that are deploying robotics ?"] "
robotics ["Q-021 What a real change in the companies that are deploying ?"] "
involved?Walter ["Q-022 ]
largest manufacturers ["Q-023 For what were for years robots tools only ?"] "
tools ["Q-024 What were for years robots only for the largest manufacturers ?"] "
years robots ["Q-025 What time were tools only for the largest manufacturers ?"] "
involved?Walter ["Q-026 ]
robots ["Q-027 In what did they required expensive care and feeding of integrators and programming ?"] "
integrators ["Q-028 Of what did they required expensive care and feeding in the form and programming ?"] "
expensive care ["Q-029 What did they required and feeding in the form of integrators and programming ?"] "
the largest manufacturers ["Q-030 Who required expensive care and feeding in the form of integrators and programming ?"] "
integrators ["Q-031 Who programming ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-032 ]
programming ["Q-033 Now than what collaborative robots require configuration rather and they can be quickly switched from task to task ?"] "
integrators ["Q-034 Now collaborative robots require configuration rather from what than programming and they programming quickly switched to task ?"] "
collaborative robots require configuration ["Q-035 Now what N rather than programming and they can be quickly switched from task to task ?"] "
integrators ["Q-036 Now collaborative robots require configuration rather what than programming and they programming from task to task ?"] "
collaborative robots ["Q-037 Who require configuration rather than programming and they can be quickly switched from task to task ?"] "
collaborative robots ["Q-038 Who programming configuration rather than programming and they can be quickly switched from task to task ?"] "
1000-kilo payload ["Q-039 ]
robot companies ["Q-040 About what did Vahey talked such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
Universal Robots ["Q-041 As what did Vahey talked about robot companies such ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
robot arms ["Q-042 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which p N and Mir a company that produces collaborative mobile robots ?"] "
collaborative mobile robots ["Q-043 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that p N ?"] "
Vahey ["Q-044 Who talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
involved?Walter ["Q-045 ]
putting robotics ["Q-046 He explained how in what they \u2019 re putting robotics of smaller manufacturers that previously could not afford advanced automation ?"] "
smaller manufacturers ["Q-047 He explained how of what they \u2019 re putting robotics in the hands that previously could not afford advanced automation ?"] "
putting robotics ["Q-048 He explained how what they \u2019 J in the hands of smaller manufacturers that previously could not afford advanced automation ?"] "
MiR a company that produces collaborative mobile robots ["Q-049 He explained how what they \u2019 re putting robotics in the hands of smaller manufacturers that previously could not a N ?"] "
involved?Walter ["Q-050 ]
these robots ["Q-051 That what is the difference are less expensive they can be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
production ["Q-052 The difference is that these robots are less for what can expensive they be set up without programming and they can be quickly reconfigured to change tasks ?"] "
programming ["Q-053 The difference is that these robots are less without what can expensive they be set up for production and they can be quickly reconfigured to change tasks ?"] "
less expensive ["Q-054 The difference is what are that these robots can be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
configuration ["Q-055 The difference is that these robots are less what can expensive they be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
configuration ["Q-056 The difference is that these robots are less expensive they can be set up what for production without programming and they programming to change tasks ?"] "
change tasks ["Q-057 The difference is that these robots are less expensive they can be set up what for production without programming and they programming quickly reconfigured to c N ?"] "
Register today! ["Q-058 ]
investment ["Q-059 Within what are Robots now of small manufacturers ?"] "
small manufacturers ["Q-060 Of what are robots now within the investment reach ?"] "
Robots ["Q-061 Who are now within the investment reach of small manufacturers ?"] "
involved?Walter ["Q-062 ]
Robots are now within the investment reach of small manufacturers ["Q-063 In what That s fueling fueling a surge of collaborative robots ?"] "
collaborative robots ["Q-064 Of what That s fueling fueling a surge in the use ?"] "
Robots are now within the investment reach of small manufacturers ["Q-065 What that s fueling fueling in the use of collaborative robots ?"] "
MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less expensive they can be set up for production without programming and they can be quickly reconfigured to change tasks.Robots are now within the investment reach of small manufacturers. Thats ["Q-066 Who fueling a surge in the use of collaborative robots ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-067 ]
collaborative robots ["Q-068 ( Image source Universal Robots ) you asked Vahey what about what different and what he \u2019 s seeing in robot adoption among smaller manufacturers ?"] "
robot adoption ["Q-069 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what in what he \u2019 s seeing among smaller manufacturers ?"] "
smaller manufacturers ["Q-070 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what among what he \u2019 s seeing in robot adoption ?"] "
Vahey ["Q-071 ( Image source Universal Robots ) whom did you asked what \u2019 s different about collaborative robots and what he \u2019 s seeing in robot adoption among smaller manufacturers ?"] "
Vahey ["Q-072 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what what he \u2019 J in robot adoption among smaller manufacturers ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-073 ]
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-074 ]
the robot space ["Q-075 Walter Vahey companies what are such as Universal Robots and Mir pioneering ?"] "
Walter Vahey Companies ["Q-076 Who are pioneering the robot space ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-077 ]
a broad class ["Q-078 To what they \u2019 re bringing automation of users and democratizing automation ?"] "
Universal Robots and MiR ["Q-079 Of what they \u2019 re bringing automation to a broad class and democratizing automation ?"] "
Universal Robots and MiR ["Q-080 What they \u2019 N to a broad class of users and democratizing automation ?"] "
Walter Vahey Companies ["Q-081 They \u2019 re bringing automation to what a broad class of users and democratizing democratizing ?"] "
Walter Vahey Companies ["Q-082 Who democratizing automation ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-083 ]
their orders ["Q-084 For what is small companies the task at hand to figure out how to fulfill ?"] "
small companies ["Q-085 Who is to figure out how to fulfill their orders ?"] "
involved?Walter ["Q-086 ]
1000-kilo payload ["Q-087 ]
quality ["Q-088 In a tight labor market manufacturers are facing in what more competition growing growing demand and higher expectations ?"] "
competition growing ["Q-089 In what are a tight labor market manufacturers facing and higher expectations in quality ?"] "
tight labor market manufacturers ["Q-090 Who are facing more competition growing demand and higher expectations in quality ?"] "
labor market manufacturers ["Q-091 Who growing demand and higher expectations in quality ?"] "
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & ["Q-092 ]
UR ["Q-093 What can Manufacturer plug or Mir robots in very quickly ?"] "
Manufacturer ["Q-094 Who can plug Ur or Mir robots in very quickly ?"] "
1000-kilo payload ["Q-095 ]
easy ["Q-096 Everything is to what from the specs up front to quickly arranging and training the robot ?"] "
UR or MiR robots ["Q-097 To what is everything easy from the specs up front to ordering and training the robot ?"] "
specs ["Q-098 From what is everything easy up front to ordering to quickly arranging and training the robot ?"] "
Manufacturer can plug UR or MiR robots ["Q-099 What is everything easy from the specs up front to ordering to quickly arranging and training ?"] "
Walter Vahey Companies ["Q-0100 Who is easy from the specs up front to ordering to quickly arranging and training the robot ?"] "
collaborative robots ["Q-0101 Who arranging easy from the robot ?"] "
involved?Walter ["Q-0102 ]
applications ["Q-0103 There \u2019 s of what do no programming and the robots have the flexibility to do a variety ?"] "
no programming ["Q-0104 There \u2019 what s s N N N and the robots have the flexibility to do a variety of applications ?"] "
flexibility ["Q-0105 There \u2019 s what do no programming and the robots have to do a variety of applications ?"] "
change tasks.Robots are now within the investment reach of small manufacturers. Thats fueling a surge in the use of collaborative robots. (Image source Universal Robots)We asked Vahey what\u2019s different about collaborative robots and what he\u2019s seeing in robot adoption among smaller manufacturers.Design News Tell us about the new robots and how they\u2019re getting deployed.Walter Vahey Companies such as Universal Robots and MiR are pioneering the robot space. They\u2019re bringing automation to a broad class of users and democratizing automation. For small companies the task at hand is to figure out how to fulfill their orders. It\u2019s particularly challenging to manufacturers. In a tight labor market manufacturers are facing more competition growing demand and higher expectations in quality.Manufacturer can plug UR or MiR robots in very quickly. Everything is easy from the specs up front to ordering to quickly arranging and training the robot. There\u2019s no programming , Walter Vahey Companies " ["Q-0107 Who \u2019 the no programming and the robots have the flexibility to do a variety of applications ?"] "
\u2019s no programming and the robots ["Q-0108 Who have the flexibility to do a variety of applications ?"] "
1000-kilo payload ["Q-0109 ]
labor challenges ["Q-0110 With what is every customer dealing so now they \u2019 re deploying collaborative robots to fulfill demand with high quality ?"] "
high quality ["Q-0111 Every customer is dealing with labor challenges so now with what they \u2019 re deploying collaborative robots to fulfill demand ?"] "
There\u2019s no programming ["Q-0112 What is every customer dealing with labor challenges so now they \u2019 re deploying collaborative robots to fulfill demand with high quality ?"] "
There\u2019s no programming and the robots have the flexibility to do a variety of applications. Every customer is dealing with labor challenges so now they\u2019re deploying collaborative robots to fulfill demand with high quality.The whole paradigm has shifted now that you have a broader range of robot applications ["Q-0113 Every customer is dealing with labor challenges so now what they \u2019 J collaborative robots to fulfill demand with high quality ?"] "
There\u2019s no programming and the robots have the flexibility to do a variety of applications. Every customer is dealing with labor challenges so now they\u2019re deploying collaborative robots to fulfill demand with high quality.The whole paradigm has shifted now that you have a broader range of robot applications ["Q-0114 Every customer is dealing with labor challenges so now what they \u2019 re deploying collaborative robots to f J with high quality ?"] "
involved?Walter ["Q-0115 ]
Walter Vahey Companies ["Q-0116 That whom has the whole paradigm shifted now have a broader range of robot applications ?"] "
robot applications ["Q-0117 The whole paradigm has shifted now of what do that me have a broader range ?"] "
high quality ["Q-0118 What has the whole paradigm shifted now that me have a broader range of robot applications ?"] "
broader range ["Q-0119 The whole paradigm has shifted now what do that me have of robot applications ?"] "
The whole paradigm ["Q-0120 Who has shifted now that me have a broader range of robot applications ?"] "
Walter Vahey Companies ["Q-0121 Who have a broader range of robot applications ?"] "
involved?Walter ["Q-0122 ]
automation plug ["Q-0123 You can easily in what and quickly bring in and get product moving in hours or days rather than months ?"] "
hours ["Q-0124 You can easily and quickly bring in automation plug it in and get when product moving moving or days rather than months ?"] "
months ["Q-0125 You can easily and quickly bring in automation plug it in and get when product moving moving in hours or days rather ?"] "
product moving ["Q-0126 You can easily and quickly bring what do in automation plug it in and get in hours or days rather than months ?"] "
robot applications ["Q-0127 Who can easily and quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
You ["Q-0128 Who quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
automation plug ["Q-0129 Who get product moving in hours or days rather than months ?"] "
get product ["Q-0130 Who moving in hours or days rather than months ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0131 ]
end ["Q-0132 That \u2019 s what where the growth and Mir ?"] "
end ["Q-0133 That \u2019 s what what N at Ur and Mir ?"] "
1000-kilo payload ["Q-0134 ]
change management a hurdle ["Q-0135 What the issue of Change Managementdesign News is ? ?"] "
Change ManagementDesign News ["Q-0136 Who is change management a hurdle ? ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0137 ]
an issue ["Q-0138 Does the robot cause workforce disruption ? Walter Vahey you really that what did \u2019 t seen seen ?"] "
workforce disruption?Walter Vahey We ["Q-0139 Who seen that as an issue ?"] "
MiR.The Issue of Change ManagementDesign News Is change management a hurdle?. Does the robot cause workforce disruption?Walter Vahey We really haven\u2019t seen that as an issue. The overwhelming need to improve and fulfill demand at a higher quality level helps the manufacturers deploy. It outweighs other challenges. We help with the deployment and the manufacturers are making the change easily.We grew up as a supplier of electronic test equipment. Since 2015 we\u2019ve entered the industrial automation market with a focus on the emerging collaborative robot space. We see that as a way to change the equation for manufacturers making it faster and easier to deploy automation.Design News What about return on investment? Robotics can be a considerable investment for a small company/Walter Vahey The customers today are looking for relatively short ROI and we\u2019re seeing it from 6 months to a year. That\u2019s a no brainer for manufacturers. They\u2019re ready to jump in.We work har , higher quality level " ["Q-0141 The overwhelming need to improve at what and fulfill demand helps the manufacturers deploy ?"] "
demand ["Q-0142 The overwhelming need to improve what and f J at a higher quality level helps the manufacturers deploy ?"] "
manufacturers ["Q-0143 The overwhelming need to improve what and fulfill demand at a higher quality level helps deploy ?"] "
collaborative robots ["Q-0144 Who fulfill demand at a higher quality level helps the manufacturers deploy ?"] "
Walter Vahey Companies ["Q-0145 Who deploy ?"] "
MiR.The Issue of Change ManagementDesign News Is change management a hurdle?. Does the robot cause workforce disruption?Walter Vahey We really haven\u2019t seen that as an issue. The overwhelming need to improve and fulfill demand at a higher quality level helps the manufacturers deploy. It outweighs other challenges. We help with the deployment and the manufacturers are making the change easily.We grew up as a supplier of electronic test equipment. Since 2015 we\u2019ve entered the industrial automation market with a focus on the emerging collaborative robot space. We see that as a way to change the equation for manufacturers making it faster and easier to deploy automation.Design News What about return on investment? Robotics can be a considerable investment for a small company/Walter Vahey The customers today are looking for relatively short ROI and we\u2019re seeing it from 6 months to a year. That\u2019s a no brainer for manufacturers. They\u2019re ready to jump in.We work har , Universal Robots " ["Q-0147 What it o you ?"] "
higher quality level ["Q-0148 Who outweighs other challenges ?"] "
1000-kilo payload ["Q-0149 ]
deployment ["Q-0150 With what you help and the manufacturers are making the change easily ?"] "
change easily ["Q-0151 We help what are with the deployment and the manufacturers making easily ?"] "
The application builder ["Q-0152 Who help with the deployment and the manufacturers are making the change easily ?"] "
deployment and the manufacturers ["Q-0153 Who are making the change easily ?"] "
MiR.The Issue of Change ManagementDesign News Is change management a hurdle?. Does the robot cause workforce disruption?Walter Vahey We really haven\u2019t seen that as an issue. The overwhelming need to improve and fulfill demand at a higher quality level helps the manufacturers deploy. It outweighs other challenges. We help with the deployment and the manufacturers are making the change easily.We grew up as a supplier of electronic test equipment. Since 2015 we\u2019ve entered the industrial automation market with a focus on the emerging collaborative robot space. We see that as a way to change the equation for manufacturers making it faster and easier to deploy automation.Design News What about return on investment? Robotics can be a considerable investment for a small company/Walter Vahey The customers today are looking for relatively short ROI and we\u2019re seeing it from 6 months to a year. That\u2019s a no brainer for manufacturers. They\u2019re ready to jump in.We work har , supplier " ["Q-0155 As what grew you up of electronic test equipment ?"] "
electronic test equipment ["Q-0156 Of what grew you up as a supplier ?"] "
Walter Vahey Companies ["Q-0157 Who grew up as a supplier of electronic test equipment ?"] "
involved?Walter ["Q-0158 ]
a focus ["Q-0159 Since 2015 with what you \u2019 ve entered the industrial automation market on the emerging collaborative robot space ?"] "
electronic test equipment ["Q-0160 Since 2015 on what you \u2019 ve entered the industrial automation market with a focus collaborative robot space ?"] "
electronic test equipment ["Q-0161 Since 2015 what you \u2019 N industrial automation market with a focus on the emerging collaborative robot space ?"] "
collaborative robot space ["Q-0162 Since 2015 you \u2019 ve entered what the industrial automation market with a focus on the emerging emerging ?"] "
Walter Vahey Companies ["Q-0163 Who emerging collaborative robot space ?"] "
involved?Walter ["Q-0164 ]
electronic test equipment ["Q-0165 That what do you see to change the equation for manufacturers making it faster and easier to deploy automation ?"] "
manufacturers ["Q-0166 For what do you see that as a way to change the equation faster and easier to deploy automation ?"] "
change the equation ["Q-0167 What do you see that as a way to c N for manufacturers making it faster and easier to deploy automation ?"] "
Design News ["Q-0168 We see that as a way to change whom the equation for manufacturers making making faster and easier to deploy automation ?"] "
the equation for manufacturers making it faster and easier to deploy automation ["Q-0169 We see that as a way to change what the equation for manufacturers making making it faster and easier to d N ?"] "
Walter Vahey Companies ["Q-0170 Who see that as a way to change the equation for manufacturers making it faster and easier to deploy automation ?"] "
manufacturers ["Q-0171 Who making it faster and easier to deploy automation ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0172 ]
Robotics ["Q-0173 Design News what about return on investment ? robotics can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively to what short Roi and you \u2019 re seeing it from 6 months ?"] "
Robotics ["Q-0174 Design News what about return on investment ? can robotics be a considerable investment are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
relatively short ROI ["Q-0175 Design News what about return on investment ? robotics can be a considerable investment for where are a small company / walter Vahey the customers today looking and you \u2019 re seeing it from 6 months to a year ?"] "
6 months ["Q-0176 Design News what about return on investment ? robotics can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively from what short Roi and you \u2019 re seeing it to a year ?"] "
Robotics ["Q-0177 Design News what about return on investment ? what can robotics be for a small company / walter Vahey the customers today are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
Robotics ["Q-0178 Design News what about return on investment ? robotics can be a considerable investment for what are a small company / walter Vahey the customers today looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
Robotics ["Q-0179 Design News what about return on investment ? robotics can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively what short Roi and you \u2019 J from 6 months to a year ?"] "
Design News What about return on investment? Robotics ["Q-0180 Who can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
small company/Walter Vahey The customers ["Q-0181 Who are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
Walter Vahey ["Q-0182 Who \u2019 re seeing it from 6 months to a year ?"] "
6 months ["Q-0183 Design News what about return on investment ? robotics can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively from how much short Roi and you \u2019 re seeing it months to a year ?"] "
1000-kilo payload ["Q-0184 ]
manufacturers ["Q-0185 For what a no brainer ?"] "
no brainer ["Q-0186 What N for manufacturers ?"] "
Walter Vahey ["Q-0187 Who \u2019 no a no brainer for manufacturers ?"] "
1000-kilo payload ["Q-0188 ]
Walter Vahey ["Q-0189 Who \u2019 re ready to jump in ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0190 ]
an issue ["Q-0191 Of what you work hard to make deployment less ?"] "
jump in.We work hard to make deployment less of an issue. We have an application builder ["Q-0192 What you work hard to make less of an issue ?"] "
Design News What about return on investment? Robotics can be a considerable investment for a small company/Walter Vahey The customers today are looking for relatively short ROI ["Q-0193 Who work hard to make deployment less of an issue ?"] "
1000-kilo payload ["Q-0194 ]
deployment ["Q-0195 We have for what an application builder and you use it to prepare ?"] "
application builder ["Q-0196 What do you have and you use it to prepare for deployment ?"] "
pick-and-place operation ["Q-0197 We have whom an application builder and you u N to prepare for deployment ?"] "
MiR ["Q-0198 Who have an application builder and you use it to prepare for deployment ?"] "
application builder ["Q-0199 Who use it to prepare for deployment ?"] "
involved?Walter ["Q-0200 ]
a pick-and-place operation ["Q-0201 May the new user have ?"] "
The new user ["Q-0202 Who may have a pick - and - place operation ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0203 ]
partners ["Q-0204 They choose to what the gripper and you guide them who make it easy to deploy ?"] "
the gripper ["Q-0205 What they choose and you guide them to partners who make it easy to deploy ?"] "
pick-and-place operation. They choose the gripper and we guide them to partners who make it easy to deploy.The application builder ["Q-0206 They choose whom the gripper and you guide to partners who make it easy to deploy ?"] "
pick-and-place operation. They choose the gripper and we guide them to partners who make it easy to deploy.The application builder ["Q-0207 They choose whom the gripper and you guide them to partners who make easy to deploy ?"] "
pick-and-place operation ["Q-0208 Who choose the gripper and you guide them to partners who make it easy to deploy ?"] "
the gripper ["Q-0209 Who guide them to partners who make it easy to deploy ?"] "
involved?Walter ["Q-0210 ]
involved?Walter ["Q-0211 ]
so the automation doesn\u2019t sit ["Q-0212 The whole object is to get so what the customer deployed rapidly ?"] "
customer deployed rapidly so the automation doesn\u2019t sit ["Q-0213 What is the whole object to get deployed rapidly so the automation doesn \u2019 t sit ?"] "
The whole object ["Q-0214 Who is to get the customer deployed rapidly so the automation doesn \u2019 t sit ?"] "
the customer ["Q-0215 Who deployed rapidly so the automation doesn \u2019 t sit ?"] "
involved?Walter ["Q-0216 ]
the mobile device ["Q-0217 With Mir the robot comes for what do in and you find an easy application ?"] "
an easy application ["Q-0218 With Mir the robot comes what do in and you find for the mobile device ?"] "
MiR the robot ["Q-0219 Who comes in and you find an easy application for the mobile device ?"] "
MiR ["Q-0220 Who find an easy application for the mobile device ?"] "
involved?Walter ["Q-0221 ]
the plant ["Q-0222 Around what do you take the robot and map it ?"] "
robot ["Q-0223 What do you take around the plant and map it ?"] "
MiR ["Q-0224 We take the robot around the plant and whom m m N N N ?"] "
MiR ["Q-0225 Who take the robot around the plant and map it ?"] "
involved?Walter ["Q-0226 ]
an application ["Q-0227 Through what you \u2019 ve work to guide customers quickly and make the robot productive as soon as possible ?"] "
grippers and end effectors ["Q-0228 What you \u2019 N to guide customers through an application quickly and make the robot productive as soon as possible ?"] "
guide customers ["Q-0229 What you \u2019 ve work to g N through an application quickly and make the robot productive as soon as possible ?"] "
robot productive ["Q-0230 We \u2019 ve work to guide customers through an application quickly what do and make productive as soon as possible ?"] "
guide customers ["Q-0231 Who make the robot productive as soon as possible ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0232 ]
robot productive ["Q-0233 There are hundreds of partners that work what with Ur and Mir providing providing and end effectors ?"] "
UR and MiR ["Q-0234 Who providing grippers and end effectors ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0235 ]
customers ["Q-0236 That what do you have a system can plug into ?"] "
a system ["Q-0237 What do you have that customers can plug into ?"] "
UR and MiR ["Q-0238 Who have a system that customers can plug into ?"] "
customers ["Q-0239 Who can plug into ?"] "
Robot Democratization A Machine for Every Manufacturer With collaborative robots proliferating we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less ex , grippers " ["Q-0241 At what can customer look from a wide range of companies ?"] "
wide range ["Q-0242 From what can customer look at grippers of companies ?"] "
companies ["Q-0243 Of what can customer look at grippers from a wide range ?"] "
Customer ["Q-0244 Who can look at grippers from a wide range of companies ?"] "
1000-kilo payload ["Q-0245 ]
robot deployment ["Q-0246 On what you \u2019 re not working just ?"] "
1000-kilo payload ["Q-0247 ]
ROI.What Tasks ["Q-0248 We work to get so whom the whole system deployed can quickly get the Roi ?"] "
whole system deployed ["Q-0249 What you work to get so they can quickly get the Roi ?"] "
ROI.What Tasks ["Q-0250 We work to get what the whole system deployed so they deployed quickly get ?"] "
whole system ["Q-0251 What you work to get deployed so they can quickly get the Roi ?"] "
Robots Taking On?Design News ["Q-0252 Who work to get the whole system deployed so they can quickly get the Roi ?"] "
Robots Taking On?Design News ["Q-0253 Who deployed quickly get t D quickly get the Roi ?"] "
1000-kilo payload ["Q-0254 ]
involved?Walter Vahey ["Q-0255 What Tasks are in what on ? Design News Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-0256 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what of what are tasks involved ? Walter Vahey there is a range ?"] "
involved?Walter Vahey ["Q-0257 What what Tasks are on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-0258 What Tasks are the Robots taking on ? what is Design News Who in the plant using and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-0259 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what are tasks involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-0260 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what what are tasks involved ? Walter Vahey there is of users ?"] "
involved?Walter Vahey ["Q-0261 Who are the Robots taking on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
ROI.What Tasks Are the Robots Taking On?Design News ["Q-0262 Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-0263 Who are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey There is a range of users ["Q-0264 ]
involved?Walter Vahey ["Q-0265 To be for whom effective at training a robot and configuring it the people best training are the ones most aware of the task ?"] "
involved?Walter Vahey There is a range of users. To be effective at training a robot and configuring it the people best suited for it are the ones most aware of the task ["Q-0266 To be effective at training a robot and configuring it the people best suited of what are for it the ones most aware ?"] "
training a robot and configuring it the people ["Q-0267 To be whom a robot and configuring best suited for it are the ones most aware of the task ?"] "
involved?Walter Vahey There is a range of users. To be effective at training a robot and configuring it the people best suited for it are the ones ["Q-0268 To be effective at training a robot and configuring it the people best suited what are for it most aware of the task ?"] "
1000-kilo payload ["Q-0269 ]
the task ["Q-0270 To get the robot to be what do effective i have to know ?"] "
Robot Democratization A Machine for Every Manufacturer With collaborative robots proliferating we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less ex , involved?Walter Vahey There is a range of users " ["Q-0272 ]
task ["Q-0273 By and large the person who has that what been been doing doing is best suited to train the robot ?"] "
configuring it the people best suited for it are the ones most aware of the task. To get the robot to be effective ["Q-0274 By and large the person who has what been been doing doing that task is best suited to train the robot ?"] "
best suited ["Q-0275 By and large the person who has what been been doing that task doing to train the robot ?"] "
the robot ["Q-0276 By and large the person who has what been been doing that task doing best suited to train ?"] "
the person ["Q-0277 Who been doing and large t D best suited to train the robot ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0278 ]
train other robots ["Q-0279 What that person can then t N ?"] "
the person ["Q-0280 Who can then train other robots ?"] "
1000-kilo payload ["Q-0281 ]
Register today! ["Q-0282 ]
RELATED ARTICLESThis ["Q-0283 About what Related Articlesthis is How americans Feel in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-0284 Related Articlesthis is How americans Feel when about manufacturing Manufacturing here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-0285 For what Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
applications ["Q-0286 Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch of what are the tasks broad set ?"] "
RELATED ARTICLESThis ["Q-0287 What Related Articlesthis is americans Feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-0288 What Related Articlesthis is How americans feel about Manufacturing in 2019 here Comes for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-0289 What Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch are broad set of applications ?"] "
broad set ["Q-0290 Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch what are the tasks of applications ?"] "
RELATED ARTICLESThis ["Q-0291 Who is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
Design and Manufacturing 12 Robot Companies ["Q-0292 Who are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-0293 Related Articlesthis is How americans Feel in how much about manufacturing Manufacturing here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
1000-kilo payload ["Q-0294 ]
virtually any task ["Q-0295 What you automate and any material movement ?"] "
RELATED ARTICLESThis ["Q-0296 Who automate virtually any task and any material movement ?"] "
1000-kilo payload ["Q-0297 ]
Walter Vahey ["Q-0298 Who \u2019 s close ?"] "
1000-kilo payload ["Q-0299 ]
doing machine learning grinding packing ["Q-0300 What with Ur you \u2019 N pick - and - place repetitive tasks welding ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0301 ]
applications ["Q-0302 Of what it \u2019 a very broad set ?"] "
involved?Walter Vahey There is a range of users ["Q-0303 What it \u2019 N of applications ?"] "
UR ["Q-0304 Who \u2019 very a very broad set of applications ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0305 ]
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0306 ]
Parts ["Q-0307 To what parts going going from a warehouse and then from the work cell to another work cell up to a 1000-kilo payload ?"] "
Parts ["Q-0308 To what parts going going from a warehouse to a work cell and then from the work cell up to a 1000-kilo payload ?"] "
a 1000-kilo payload ["Q-0309 Parts going from a warehouse to a work cell and then from the work cell to to what another work cell up ?"] "
a warehouse ["Q-0310 From what parts going going to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ?"] "
Parts ["Q-0311 From what parts going going from a warehouse to a work cell and then to another work cell up to a 1000-kilo payload ?"] "
Parts ["Q-0312 Who going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0313 ]
warehousing ["Q-0314 Into what you \u2019 re moving robots and logistics space even large pieces of metal ?"] "
metal ["Q-0315 We \u2019 of what re moving robots into warehousing moving and logistics space even large pieces ?"] "
moving robots ["Q-0316 What you \u2019 N into warehousing and logistics space even large pieces of metal ?"] "
robots ["Q-0317 Who moving and logistics s N and logistics space even large pieces of metal ?"] "
1000-kilo payload ["Q-0318 ]
long runs ["Q-0319 For what are the robots well suited of pallets of materials ?"] "
pallets ["Q-0320 Of what are the robots well suited for long runs of materials ?"] "
metal ["Q-0321 Of what are the robots well suited for long runs of pallets ?"] "
well suited ["Q-0322 What are the robots for long runs of pallets of materials ?"] "
The robots ["Q-0323 Who are well suited for long runs of pallets of materials ?"] "
1000-kilo payload ["Q-0324 ]
supply chain technology alternative energy and cyber security ["Q-0325 For what has rob Spiegel covered automation and control of them for Design News ?"] "
owner and publisher of the food magazine Chile Pepper ["Q-0326 Of whom has rob Spiegel covered automation and control for 19 years 17 for Design News ?"] "
Design News ["Q-0327 For what has rob Spiegel covered automation and control for 19 years 17 of them ?"] "
automation ["Q-0328 What has rob Spiegel covered and control for 19 years 17 of them for Design News ?"] "
Rob Spiegel ["Q-0329 Who has covered automation and control for 19 years 17 of them for Design News ?"] "
19 years 17 ["Q-0330 For how much has rob Spiegel covered automation and control years 17 of them for Design News ?"] "
1000-kilo payload ["Q-0331 ]
supply chain technology ["Q-0332 What has other topics he covered include alternative energy and cyber security ?"] "
cyber security ["Q-0333 Other topics he has covered include supply c N technology alternative energy and what c c N N N ?"] "
Rob Spiegel ["Q-0334 Who has covered include supply chain technology alternative energy and cyber security ?"] "
Rob Spiegel ["Q-0335 Who cyber security ?"] "
1000-kilo payload ["Q-0336 ]
Chile Pepper ["Q-0337 For 10 of what did years he was owner and publisher ?"] "
owner ["Q-0338 For 10 what did years he was and publisher of the food magazine Chile Pepper ?"] "
Rob Spiegel ["Q-0339 Who was owner and publisher of the food magazine Chile Pepper ?"] "
1000-kilo payload ["Q-0340 ]
top industry experts ["Q-0341 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; with what i and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0342 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with in what top industry experts including including esign and manufacturing suppliers and industry leaders medical technology and more ?"] "
Manufacturing Minneapolis ["Q-0343 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; whom N with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0344 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with what top industry experts including including and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry ["Q-0345 Design & amp ; Manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! Design & amp ; Manufacturing Minneapolis connects i with what top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing including medical technology and more ?"] "
Manufacturing Minneapolis ["Q-0346 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
top industry experts including esign and manufacturing suppliers and industry leaders ["Q-0347 Who including manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! . packaging automation robotics medical technology and more ?"] "
1000-kilo payload ["Q-0348 ]
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis connects you with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology ["Q-0349 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-0350 This is the place where what exhibitors e N and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
thought leaders ["Q-0351 This is the place where exhibitors engineers executives and what can thought leaders learn and create solutions to move the industry forward ?"] "
industry forward ["Q-0352 This is the place where exhibitors engineers executives and what can thought leaders learn contribute and create solutions to move ?"] "
Manufacturing Minneapolis ["Q-0353 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-0354 Who can learn contribute and create solutions to move the industry forward ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0355 ]
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-0356 ]
collaborative robots ["Q-01 Who proliferating Machine f you to know who \u2019 s using t D robots and what tasks they \u2019 re doing ?"] "
Walter Vahey executive vice-president ["Q-02 Who \u2019 re doing ?"] "
Teradyne a company ["Q-03 Where caught Design News up with Walter Vahey executive vice - president that helps manufacturers gear up their automation ?"] "
Design News ["Q-04 Who caught up with Walter Vahey executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
manufacturers ["Q-05 Who gear up their automation ?"] "
robotics ["Q-06 What a real change in the companies that are deploying ?"] "
tools ["Q-07 What were for years robots only for the largest manufacturers ?"] "
years robots ["Q-08 What time were tools only for the largest manufacturers ?"] "
expensive care ["Q-09 What did they required and feeding in the form of integrators and programming ?"] "
the largest manufacturers ["Q-10 Who required expensive care and feeding in the form of integrators and programming ?"] "
Robots Taking On?Design News ["Q-11 Who programming ?"] "
collaborative robots ["Q-12 Who require configuration rather than programming and they can be quickly switched from task to task ?"] "
collaborative robots ["Q-13 Who programming configuration rather than programming and they can be quickly switched from task to task ?"] "
robot arms ["Q-14 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which p N and Mir a company that produces collaborative mobile robots ?"] "
collaborative mobile robots ["Q-15 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that p N ?"] "
Vahey ["Q-16 Who talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
Robots ["Q-17 Who are now within the investment reach of small manufacturers ?"] "
Robots are now within the investment reach of small manufacturers. Thats fueling a surge ["Q-18 What that s fueling fueling in the use of collaborative robots ?"] "
small manufacturers. Thats ["Q-19 Who fueling a surge in the use of collaborative robots ?"] "
Walter Vahey Companies ["Q-20 Who are pioneering the robot space ?"] "
Walter Vahey Companies ["Q-21 What they \u2019 N to a broad class of users and democratizing automation ?"] "
Walter Vahey Companies ["Q-22 Who democratizing automation ?"] "
small companies ["Q-23 Who is to figure out how to fulfill their orders ?"] "
tight labor market manufacturers ["Q-24 Who are facing more competition growing demand and higher expectations in quality ?"] "
labor market manufacturers ["Q-25 Who growing demand and higher expectations in quality ?"] "
UR ["Q-26 What can Manufacturer plug or Mir robots in very quickly ?"] "
Manufacturer ["Q-27 Who can plug Ur or Mir robots in very quickly ?"] "
UR or MiR robots ["Q-28 What is everything easy from the specs up front to ordering to quickly arranging and training ?"] "
Walter Vahey Companies ["Q-29 Who is easy from the specs up front to ordering to quickly arranging and training the robot ?"] "
collaborative robots ["Q-30 Who arranging easy from the robot ?"] "
Walter Vahey Companies ["Q-31 Who \u2019 the no programming and the robots have the flexibility to do a variety of applications ?"] "
\u2019s no programming and the robots ["Q-32 Who have the flexibility to do a variety of applications ?"] "
There\u2019s no programming ["Q-33 What is every customer dealing with labor challenges so now they \u2019 re deploying collaborative robots to fulfill demand with high quality ?"] "
high quality ["Q-34 What has the whole paradigm shifted now that me have a broader range of robot applications ?"] "
The whole paradigm ["Q-35 Who has shifted now that me have a broader range of robot applications ?"] "
Walter Vahey Companies ["Q-36 Who have a broader range of robot applications ?"] "
robot applications ["Q-37 Who can easily and quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
You ["Q-38 Who quickly bring in automation plug it in and get product moving in hours or days rather than months ?"] "
automation plug ["Q-39 Who get product moving in hours or days rather than months ?"] "
get product ["Q-40 Who moving in hours or days rather than months ?"] "
change management a hurdle ["Q-41 What the issue of Change Managementdesign News is ? ?"] "
Change ManagementDesign News ["Q-42 Who is change management a hurdle ? ?"] "
workforce disruption?Walter Vahey We ["Q-43 Who seen that as an issue ?"] "
collaborative robots ["Q-44 Who fulfill demand at a higher quality level helps the manufacturers deploy ?"] "
robotics ["Q-45 Who deploy ?"] "
Design & ["Q-46 What it o you ?"] "
higher quality level ["Q-47 Who outweighs other challenges ?"] "
The application builder ["Q-48 Who help with the deployment and the manufacturers are making the change easily ?"] "
deployment and the manufacturers ["Q-49 Who are making the change easily ?"] "
Walter Vahey Companies ["Q-50 Who grew up as a supplier of electronic test equipment ?"] "
Walter Vahey Companies ["Q-51 Who emerging collaborative robot space ?"] "
change the equation ["Q-52 What do you see that as a way to c N for manufacturers making it faster and easier to deploy automation ?"] "
Walter Vahey Companies ["Q-53 Who see that as a way to change the equation for manufacturers making it faster and easier to deploy automation ?"] "
manufacturers ["Q-54 Who making it faster and easier to deploy automation ?"] "
Design News What about return on investment? Robotics ["Q-55 Who can be a considerable investment for a small company / walter Vahey the customers today are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
small company/Walter Vahey The customers ["Q-56 Who are looking for relatively short Roi and you \u2019 re seeing it from 6 months to a year ?"] "
Walter Vahey ["Q-57 Who \u2019 re seeing it from 6 months to a year ?"] "
Manufacturing ["Q-58 What N for manufacturers ?"] "
Walter Vahey ["Q-59 Who \u2019 no a no brainer for manufacturers ?"] "
Walter Vahey ["Q-60 Who \u2019 re ready to jump in ?"] "
jump in.We work hard to make deployment less of an issue. We have an application builder ["Q-61 What you work hard to make less of an issue ?"] "
Design News ["Q-62 Who work hard to make deployment less of an issue ?"] "
application builder ["Q-63 What do you have and you use it to prepare for deployment ?"] "
MiR ["Q-64 Who have an application builder and you use it to prepare for deployment ?"] "
application builder ["Q-65 Who use it to prepare for deployment ?"] "
The new user ["Q-66 Who may have a pick - and - place operation ?"] "
the gripper ["Q-67 What they choose and you guide them to partners who make it easy to deploy ?"] "
pick-and-place operation ["Q-68 Who choose the gripper and you guide them to partners who make it easy to deploy ?"] "
the gripper and we ["Q-69 Who guide them to partners who make it easy to deploy ?"] "
customer ["Q-70 What is the whole object to get deployed rapidly so the automation doesn \u2019 t sit ?"] "
The whole object ["Q-71 Who is to get the customer deployed rapidly so the automation doesn \u2019 t sit ?"] "
the customer ["Q-72 Who deployed rapidly so the automation doesn \u2019 t sit ?"] "
MiR the robot ["Q-73 Who comes in and you find an easy application for the mobile device ?"] "
MiR ["Q-74 Who find an easy application for the mobile device ?"] "
robot ["Q-75 What do you take around the plant and map it ?"] "
MiR ["Q-76 Who take the robot around the plant and map it ?"] "
automation doesn\u2019t sit. With MiR the robot comes in and we find an easy application for the mobile device. We take the robot around the plant and map it. We\u2019ve work to guide customers through an application quickly and make the robot productive as soon as possible.There are hundreds of partners that work with UR and MiR providing grippers and end effectors ["Q-77 What you \u2019 N to guide customers through an application quickly and make the robot productive as soon as possible ?"] "
guide customers ["Q-78 What you \u2019 ve work to g N through an application quickly and make the robot productive as soon as possible ?"] "
guide customers ["Q-79 Who make the robot productive as soon as possible ?"] "
UR and MiR ["Q-80 Who providing grippers and end effectors ?"] "
a system ["Q-81 What do you have that customers can plug into ?"] "
UR and MiR ["Q-82 Who have a system that customers can plug into ?"] "
customers ["Q-83 Who can plug into ?"] "
Customer ["Q-84 Who can look at grippers from a wide range of companies ?"] "
the whole system deployed ["Q-85 What you work to get so they can quickly get the Roi ?"] "
whole system ["Q-86 What you work to get deployed so they can quickly get the Roi ?"] "
Robots Taking On?Design News ["Q-87 Who work to get the whole system deployed so they can quickly get the Roi ?"] "
whole system ["Q-88 Who deployed quickly get t D quickly get the Roi ?"] "
involved?Walter Vahey ["Q-89 What Tasks are in what on ? Design News Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
ROI.What Tasks ["Q-90 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what of what are tasks involved ? Walter Vahey there is a range ?"] "
involved?Walter Vahey ["Q-91 What what Tasks are on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-92 What Tasks are the Robots taking on ? what is Design News Who in the plant using and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-93 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what are tasks involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-94 What Tasks are the Robots taking on ? Design News Who in the plant is using the robots and what what are tasks involved ? Walter Vahey there is of users ?"] "
involved?Walter Vahey ["Q-95 Who are the Robots taking on ? Design News Who in the plant is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
Robots Taking On?Design News ["Q-96 Who is using the robots and what tasks are involved ? Walter Vahey there is a range of users ?"] "
involved?Walter Vahey ["Q-97 Who are involved ? Walter Vahey there is a range of users ?"] "
Robot Democratization A Machine for Every Manufacturer With collaborative robots proliferating we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less ex , the person " ["Q-99 Who been doing and large t D best suited to train the robot ?"] "
train other robots ["Q-100 What that person can then t N ?"] "
the person ["Q-101 Who can then train other robots ?"] "
RELATED ARTICLESThis ["Q-102 What Related Articlesthis is americans Feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-103 What Related Articlesthis is How americans feel about Manufacturing in 2019 here Comes for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-104 What Related Articlesthis is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch are broad set of applications ?"] "
RELATED ARTICLESThis ["Q-105 Who is How americans feel about Manufacturing in 2019 here comes the Tech Future for Design and Manufacturing 12 Robot companies to watch the tasks are broad set of applications ?"] "
Design and Manufacturing 12 Robot Companies ["Q-106 Who are broad set of applications ?"] "
virtually any task ["Q-107 What you automate and any material movement ?"] "
RELATED ARTICLESThis ["Q-108 Who automate virtually any task and any material movement ?"] "
Walter Vahey ["Q-109 Who \u2019 s close ?"] "
doing machine learning grinding packing ["Q-110 What with Ur you \u2019 N pick - and - place repetitive tasks welding ?"] "
a range of users ["Q-111 What it \u2019 N of applications ?"] "
UR ["Q-112 Who \u2019 very a very broad set of applications ?"] "
Parts ["Q-113 Who going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ?"] "
moving robots ["Q-114 What you \u2019 N into warehousing and logistics space even large pieces of metal ?"] "
robots ["Q-115 Who moving and logistics s N and logistics space even large pieces of metal ?"] "
well suited ["Q-116 What are the robots for long runs of pallets of materials ?"] "
The robots ["Q-117 Who are well suited for long runs of pallets of materials ?"] "
automation ["Q-118 What has rob Spiegel covered and control for 19 years 17 of them for Design News ?"] "
Rob Spiegel ["Q-119 Who has covered automation and control for 19 years 17 of them for Design News ?"] "
supply chain technology ["Q-120 What has other topics he covered include alternative energy and cyber security ?"] "
Rob Spiegel ["Q-121 Who has covered include supply chain technology alternative energy and cyber security ?"] "
Robots Taking On?Design News ["Q-122 Who cyber security ?"] "
Rob Spiegel ["Q-123 Who was owner and publisher of the food magazine Chile Pepper ?"] "
Manufacturing Minneapolis ["Q-124 Who Manufacturing & amp i with top industry experts including esign and manufacturing suppliers and industry leaders in plastics manufacturing packaging automation robotics medical technology and more ?"] "
industry leaders ["Q-125 Who including manufacturing Minneapolisthe Midwests largest advanced design and manufacturing event ! . packaging automation robotics medical technology and more ?"] "
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & Manufacturing Minneapolis ["Q-126 What is this where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
Manufacturing Minneapolis ["Q-127 Who is the place where exhibitors engineers executives and thought leaders can learn contribute and create solutions to move the industry forward ?"] "
exhibitors engineers executives and thought leaders ["Q-128 Who can learn contribute and create solutions to move the industry forward ?"] "
ROI.What Tasks ["Q-01 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using using robots and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-02 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using using robots and what tasks they \u2019 re doing ?"] "
we wanted to know who\u2019s using these robots and what tasks they\u2019re doing. Design News caught up with Walter Vahey executive vice-president at Teradyne a company that helps manufacturers gear up their automation. Vahey sees a real change in the companies that are deploying robotics. For years robots were tools only for the largest manufacturers. They required expensive care and feeding in the form of integrators and programming. Now collaborative robots require configuration rather than programming and they can be quickly switched from task to task.Vahey talked about robot companies such as Universal Robots (UR) which produces robot arms and MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less expensive they can be set up for production without programming and they can be quickly reconfigu , collaborative robots proliferating we wanted " ["Q-04 Robot Democratization A Machine for Every Manufacturer with what collaborative robots proliferating you proliferating to know who \u2019 N and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-05 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using t D robots and what what tasks they \u2019 N ?"] "
ROI.What Tasks ["Q-06 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using whose robots and what tasks they \u2019 re doing ?"] "
collaborative robots ["Q-07 Who proliferating Machine f you to know who \u2019 s using t D robots and what tasks they \u2019 re doing ?"] "
Walter Vahey ["Q-08 Who \u2019 re doing ?"] "
ROI.What Tasks ["Q-09 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 t how much s using using robots and what tasks they \u2019 re doing ?"] "
ROI.What Tasks ["Q-010 Robot Democratization A Machine for Every Manufacturer with collaborative robots proliferating you wanted to know who \u2019 s using how much t t N N N robots and what tasks they \u2019 re doing ?"] "
involved?Walter ["Q-011 ]
Walter Vahey ["Q-012 With what caught Design News up executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
Teradyne a company ["Q-013 Where caught Design News up with Walter Vahey executive vice - president that helps manufacturers gear up their automation ?"] "
executive vice-president ["Q-014 Design News caught up with Walter Vahey e N at Teradyne a company that helps manufacturers gear up their automation ?"] "
Walter Vahey ["Q-015 Design News caught up what vice - president at Teradyne a company that helps gear up their automation ?"] "
manufacturers gear up their automation ["Q-016 Design News caught up with Walter Vahey executive vice - president at Teradyne a company that helps what manufacturers gear ?"] "
Design News ["Q-017 Who caught up with Walter Vahey executive vice - president at Teradyne a company that helps manufacturers gear up their automation ?"] "
manufacturers ["Q-018 Who gear up their automation ?"] "
1000-kilo payload ["Q-019 ]
companies ["Q-020 In what a real change that are deploying robotics ?"] "
robotics ["Q-021 What a real change in the companies that are deploying ?"] "
involved?Walter ["Q-022 ]
largest manufacturers ["Q-023 For what were for years robots tools only ?"] "
tools ["Q-024 What were for years robots only for the largest manufacturers ?"] "
years robots ["Q-025 What time were tools only for the largest manufacturers ?"] "
involved?Walter ["Q-026 ]
robots ["Q-027 In what did they required expensive care and feeding of integrators and programming ?"] "
integrators ["Q-028 Of what did they required expensive care and feeding in the form and programming ?"] "
expensive care ["Q-029 What did they required and feeding in the form of integrators and programming ?"] "
the largest manufacturers ["Q-030 Who required expensive care and feeding in the form of integrators and programming ?"] "
integrators ["Q-031 Who programming ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-032 ]
programming ["Q-033 Now than what collaborative robots require configuration rather and they can be quickly switched from task to task ?"] "
integrators ["Q-034 Now collaborative robots require configuration rather from what than programming and they programming quickly switched to task ?"] "
collaborative robots require configuration ["Q-035 Now what N rather than programming and they can be quickly switched from task to task ?"] "
integrators ["Q-036 Now collaborative robots require configuration rather what than programming and they programming from task to task ?"] "
collaborative robots ["Q-037 Who require configuration rather than programming and they can be quickly switched from task to task ?"] "
collaborative robots ["Q-038 Who programming configuration rather than programming and they can be quickly switched from task to task ?"] "
1000-kilo payload ["Q-039 ]
robot companies ["Q-040 About what did Vahey talked such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
Universal Robots ["Q-041 As what did Vahey talked about robot companies such ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
robot arms ["Q-042 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which p N and Mir a company that produces collaborative mobile robots ?"] "
collaborative mobile robots ["Q-043 What did Vahey talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that p N ?"] "
Vahey ["Q-044 Who talked about robot companies such as Universal Robots ( Ur ) which produces robot arms and Mir a company that produces collaborative mobile robots ?"] "
involved?Walter ["Q-045 ]
putting robotics ["Q-046 He explained how in what they \u2019 re putting robotics of smaller manufacturers that previously could not afford advanced automation ?"] "
smaller manufacturers ["Q-047 He explained how of what they \u2019 re putting robotics in the hands that previously could not afford advanced automation ?"] "
putting robotics ["Q-048 He explained how what they \u2019 J in the hands of smaller manufacturers that previously could not afford advanced automation ?"] "
MiR a company that produces collaborative mobile robots ["Q-049 He explained how what they \u2019 re putting robotics in the hands of smaller manufacturers that previously could not a N ?"] "
involved?Walter ["Q-050 ]
these robots ["Q-051 That what is the difference are less expensive they can be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
production ["Q-052 The difference is that these robots are less for what can expensive they be set up without programming and they can be quickly reconfigured to change tasks ?"] "
programming ["Q-053 The difference is that these robots are less without what can expensive they be set up for production and they can be quickly reconfigured to change tasks ?"] "
less expensive ["Q-054 The difference is what are that these robots can be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
configuration ["Q-055 The difference is that these robots are less what can expensive they be set up for production without programming and they can be quickly reconfigured to change tasks ?"] "
configuration ["Q-056 The difference is that these robots are less expensive they can be set up what for production without programming and they programming to change tasks ?"] "
change tasks ["Q-057 The difference is that these robots are less expensive they can be set up what for production without programming and they programming quickly reconfigured to c N ?"] "
Register today! ["Q-058 ]
investment ["Q-059 Within what are Robots now of small manufacturers ?"] "
small manufacturers ["Q-060 Of what are robots now within the investment reach ?"] "
Robots ["Q-061 Who are now within the investment reach of small manufacturers ?"] "
involved?Walter ["Q-062 ]
Robots are now within the investment reach of small manufacturers ["Q-063 In what That s fueling fueling a surge of collaborative robots ?"] "
collaborative robots ["Q-064 Of what That s fueling fueling a surge in the use ?"] "
Robots are now within the investment reach of small manufacturers ["Q-065 What that s fueling fueling in the use of collaborative robots ?"] "
MiR a company that produces collaborative mobile robots. He explained how they\u2019re putting robotics in the hands of smaller manufacturers that previously could not afford advanced automation. The difference is that these robots are less expensive they can be set up for production without programming and they can be quickly reconfigured to change tasks.Robots are now within the investment reach of small manufacturers. Thats ["Q-066 Who fueling a surge in the use of collaborative robots ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-067 ]
collaborative robots ["Q-068 ( Image source Universal Robots ) you asked Vahey what about what different and what he \u2019 s seeing in robot adoption among smaller manufacturers ?"] "
robot adoption ["Q-069 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what in what he \u2019 s seeing among smaller manufacturers ?"] "
smaller manufacturers ["Q-070 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what among what he \u2019 s seeing in robot adoption ?"] "
Vahey ["Q-071 ( Image source Universal Robots ) whom did you asked what \u2019 s different about collaborative robots and what he \u2019 s seeing in robot adoption among smaller manufacturers ?"] "
Vahey ["Q-072 ( Image source Universal Robots ) you asked Vahey what \u2019 s different about collaborative robots and what what he \u2019 J in robot adoption among smaller manufacturers ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-073 ]
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-074 ]
the robot space ["Q-075 Walter Vahey companies what are such as Universal Robots and Mir pioneering ?"] "
Walter Vahey Companies ["Q-076 Who are pioneering the robot space ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-077 ]
a broad class ["Q-078 To what they \u2019 re bringing automation of users and democratizing automation ?"] "
Universal Robots and MiR ["Q-079 Of what they \u2019 re bringing automation to a broad class and democratizing automation ?"] "
Universal Robots and MiR ["Q-080 What they \u2019 N to a broad class of users and democratizing automation ?"] "
Walter Vahey Companies ["Q-081 They \u2019 re bringing automation to what a broad class of users and democratizing democratizing ?"] "
Walter Vahey Companies ["Q-082 Who democratizing automation ?"] "
RELATED ARTICLESThis Is How Americans Feel About Manufacturing in 2019 Here Comes the Tech Future for Design and Manufacturing 12 Robot Companies to Watch The tasks are broad set of applications. We automate virtually any task and any material movement. It\u2019s not quite that simple but it\u2019s close. With UR we\u2019re doing machine learning grinding packing pick-and-place repetitive tasks welding. It\u2019s a very broad set of applications. In materials it\u2019s also very broad. Parts going from a warehouse to a work cell and then from the work cell to another work cell up to a 1000-kilo payload ["Q-083 ]
their orders ["Q-084 For what is small companies the task at hand to figure out how to fulfill ?"] "
small companies ["Q-085 Who is to figure out how to fulfill their orders ?"] "
involved?Walter ["Q-086 ]
1000-kilo payload ["Q-087 ]
quality ["Q-088 In a tight labor market manufacturers are facing in what more competition growing growing demand and higher expectations ?"] "
competition growing ["Q-089 In what are a tight labor market manufacturers facing and higher expectations in quality ?"] "
tight labor market manufacturers ["Q-090 Who are facing more competition growing demand and higher expectations in quality ?"] "
labor market manufacturers ["Q-091 Who growing demand and higher expectations in quality ?"] "
Design & Manufacturing MinneapolisThe Midwests largest advanced design and manufacturing event!Design & ["Q-092 ]
UR ["Q-093 What can Manufacturer plug or Mir robots in very quickly ?"] "
Manufacturer ["Q-094 Who can plug Ur or Mir robots in very quickly ?"] "
1000-kilo payload ["Q-095 ]
easy ["Q-096 Everything is to what from the specs up front to quickly arranging and training the robot ?"] "
UR or MiR robots ["Q-097 To what is everything easy from the specs up front to ordering and training the robot ?"] "
specs ["Q-098 From what is everything easy up front to ordering to quickly arranging and training the robot ?"] "