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https://web.archive.org/web/20220123065538/https:/danielarus.csail.mit.edu/index.php/2015/12/research-project-soft-robots

Research Project: Soft Robots

Soft robots provide an opportunity to bridge the gap between machines and people. In contrast to hard bodied robots, soft robots have bodies made out of intrinsically soft and/or extensible materials (e.g. silicone rubbers) that can deform and absorb much of the energy arising from a collision. Soft robots have a continuously deformable structure with muscle-like



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Research Project: Soft Robots

https://web.archive.org/web/20220123065538/https:/danielarus.csail.mit.edu/index.php/2015/12/research-project-soft-robots

Soft robots provide an opportunity to bridge the gap between machines and people. In contrast to hard bodied robots, soft robots have bodies made out of intrinsically soft and/or extensible materials (e.g. silicone rubbers) that can deform and absorb much of the energy arising from a collision. Soft robots have a continuously deformable structure with muscle-like



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https://web.archive.org/web/20220123065538/https:/danielarus.csail.mit.edu/index.php/2015/12/research-project-soft-robots

Research Project: Soft Robots

Soft robots provide an opportunity to bridge the gap between machines and people. In contrast to hard bodied robots, soft robots have bodies made out of intrinsically soft and/or extensible materials (e.g. silicone rubbers) that can deform and absorb much of the energy arising from a collision. Soft robots have a continuously deformable structure with muscle-like

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      Research Project: Soft Robots
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      Daniela Rus
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      Soft robots provide an opportunity to bridge the gap between machines and people. In contrast to hard bodied robots, soft robots have bodies made out of intrinsically soft and/or extensible materials (e.g. silicone rubbers) that can deform and absorb much of the energy arising from a collision. Soft robots have a continuously deformable structure with muscle-like

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