RT @SciRobotics: Scientists @StanfordEng have designed soft, tubular air-filled #robots capable of changing shape and moving around without…
RT @SciRobotics: Scientists @StanfordEng have designed soft, tubular air-filled #robots capable of changing shape and moving around without…
Perfect for a movie set!
Scientists @StanfordEng have designed soft, tubular air-filled #robots capable of changing shape and moving around without being tethered to an external air pressure source, unlike most other air-powered robots. 📝: https://t.co/69diwStAyJ https://t.co/SE4
RT @SciRobotics: Read more about the robots in the video here: https://t.co/oAcri1jNDo
Read more about the robots in the video here: https://t.co/oAcri1jNDo
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
To chci
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @VIncelius: ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing…
ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate without a tether. Check out this work from StanfordEng here: https://t.co/PYPoaumVzk ($) https://t.co/lUrQuILflJ
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate without a tether. Check out this work from @StanfordEng here: https://t.co/qgLMqlJDlZ ($) https://t.co/pLbk6VnIJ3
Not a science article but ok.
ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate without a tether. Check out this work from StanfordEng here: https://t.co/PYPoaumVzk ($) https://t.co/ZiozJPMaCN
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
RT @ScienceMagazine: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to oper…
This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate without a tether. Check out this work from @StanfordEng here: https://t.co/qgLMqm1eKz ($) https://t.co/Yy60X1bBtC
RT @WilliamMarshal1: Paper: An untethered isoperimetric soft robot. Stanford makes a giant inflatable robot without tethers or pumps. #soft…
RT @WilliamMarshal1: Paper: An untethered isoperimetric soft robot. Stanford makes a giant inflatable robot without tethers or pumps. #soft…
Paper: An untethered isoperimetric soft robot. Stanford makes a giant inflatable robot without tethers or pumps. #softrobots https://t.co/FYlKgZONQu https://t.co/aIGv5zzzAz
RT @SciRobotics: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate…
RT @SciRobotics: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate…
RT @SciRobotics: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate…
RT @SciRobotics: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate…
RT @SciRobotics: This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate…
This truss-like, air-powered soft #robot never loses air compression nor its overall surface area, allowing it to operate without a tether. Check out this work from @StanfordEng here: https://t.co/urb51bhBrA https://t.co/ovYHsmWnuH
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
RT @SciRobotics: .@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around wit…
.@StanfordEng researchers have engineered soft, tubular air-filled #robots capable of changing shape and moving around without being tethered to an external air pressure source, unlike most other air-powered robots: https://t.co/urb51bhBrA https://t.co/zJA
Paper here: https://t.co/RrLbWr6Pl3 A great article from Stanford news about the work here: https://t.co/DoH5KmWqiU Exciting to see this @NSF NRI funded work published and to continue to explore the use of our untethered soft truss robots in a variety of
An untethered isoperimetric soft robot https://t.co/8g6FHhRHjx
An untethered isoperimetric soft robot - Science https://t.co/rFEJOLj8G3
#Robotics: new study introduces the isoperimetric concept to the field of #SoftRobotics for the structure and movement of untethered pneumatic robots. The approach could help develop robust, safe, untethered, modular and shape-changing soft robots - https: