![University of Washington Unveils New Biomimetic Anthropomorphic Robotic Hand - World Industrial Reporter University of Washington Unveils New Biomimetic Anthropomorphic Robotic Hand - World Industrial Reporter](https://wir-en.s3.amazonaws.com/wp-content/uploads/2016/02/MjcyMDE4MQ.jpg)
University of Washington Unveils New Biomimetic Anthropomorphic Robotic Hand - World Industrial Reporter
![Luka Mivsek on Twitter: "Lunch practice, robotic finger design with #moi3d and #octane #robotics https://t.co/9C9wf1CanW" / Twitter Luka Mivsek on Twitter: "Lunch practice, robotic finger design with #moi3d and #octane #robotics https://t.co/9C9wf1CanW" / Twitter](https://pbs.twimg.com/media/EMJqQuTWwAA9YYu.jpg)
Luka Mivsek on Twitter: "Lunch practice, robotic finger design with #moi3d and #octane #robotics https://t.co/9C9wf1CanW" / Twitter
![A multifingered metamorphic robotic hand. (a) A metamorphic hand with... | Download Scientific Diagram A multifingered metamorphic robotic hand. (a) A metamorphic hand with... | Download Scientific Diagram](https://www.researchgate.net/profile/Guowu-Wei/publication/281190172/figure/fig8/AS:284567144550409@1444857502521/A-multifingered-metamorphic-robotic-hand-a-A-metamorphic-hand-with-hollow-palm-b-A.png)
A multifingered metamorphic robotic hand. (a) A metamorphic hand with... | Download Scientific Diagram
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Figure 3 from Robot finger design for myoelectric prosthetic hand and recognition of finger motions via surface EMG | Semantic Scholar
![Figure 2 from Development of a robotic finger with an active dual-mode twisting actuation and a miniature tendon tension sensor | Semantic Scholar Figure 2 from Development of a robotic finger with an active dual-mode twisting actuation and a miniature tendon tension sensor | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/beb0ad490e55296b7b79ecb029c7b59c01a0e524/2-Figure2-1.png)
Figure 2 from Development of a robotic finger with an active dual-mode twisting actuation and a miniature tendon tension sensor | Semantic Scholar
![Figure 1 from A Robot Finger Design Using a Dual-Mode Twisting Mechanism to Achieve High-Speed Motion and Large Grasping Force | Semantic Scholar Figure 1 from A Robot Finger Design Using a Dual-Mode Twisting Mechanism to Achieve High-Speed Motion and Large Grasping Force | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/8a278894f815fe26ec243eef248660b9b72c6ecc/1-Figure1-1.png)
Figure 1 from A Robot Finger Design Using a Dual-Mode Twisting Mechanism to Achieve High-Speed Motion and Large Grasping Force | Semantic Scholar
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