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From Compliant Mechanisms to Hyper-Elastic Robots


Abstract

Compliant mechanisms provide kinematic solutions for transferring or transforming motion or force in a mechatronic system. Rather than relying on sliding or rolling motion as in traditional mechanics, compliant mechanisms produce their mobility based on the deflection of flexible members. This enables the integration of multiple functions into simple topologies, by embedding sensors and actuators to build fully functional and distributed devices capable of complex tasks. Further, the simple topologies in structural, mechanical, and electronic integration could lend themselves to advanced manufacturing techniques such as 3D printing with materials specialized in electro-mechanical sensing and actuation in addition to structural support, such as electroactive polymers and nanoparticle composites. Compliant mechanisms show promise for developing soft robots in addressing many pressing needs such as next generation medical implants and biomimetic medical devices.

This presentation describes an overview of a class of such compliant mechatronic systems and methods for their design and fabrication. It focuses on a computation method for designing compliant mechanisms with distributed compliance and/or made of multiple materials. It also presents an overview of exploratory solutions to modeling of soft continuum, hyper-elastic simulation for soft robots, distributed control of soft actuators (polymers or fluids), strategies for soft manipulation and locomotion, and rapid prototyping and fabrication of hyper-elastic robots.

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feed/2023/11/05/from_compliant_mechanisms_to_hyper-elastic_robots.txt ยท Last modified: 2023/11/12 19:10 by Horea Caramizaru