Origami-Inspired Strain Sensors for Stretchable Soft Robotics - USC Viterbi
$ 30.99 · 4.5 (496) · In stock
USC researchers have developed an innovative solution to measure the motion of soft components in robotics.
Computational design of ultra-robust strain sensors for soft robot perception and autonomy
Ellis Meng and Dong Song Awarded $6 Million to Develop Polymer Brain Devices for the Research Community - USC Viterbi
New Origami-Inspired Stretchable Strain Sensors
Mike Schoonover on LinkedIn: Unlocking the World of Robotics, Houston's Robotics Community
Matilda Bathurst on LinkedIn: Designing an Engine Ready for Hydrogen Combustion - USC Viterbi
Kunal Singh, PhD on LinkedIn: Figure Status Update - OpenAI Speech-to-Speech Reasoning
Origami-Inspired Strain Sensors for Stretchable Soft Robotics - USC Viterbi
Engineers Develop Multifunctional Flexible Robots Using MORPH System
Kunal Singh, PhD on LinkedIn: Transforming Soft Robotics: Laminar Jammers Unlocking Adaptive Stiffness…
Broke your shoe? What if it could repair itself? - USC Viterbi