A Modular Bio-inspired Robotic Hand with High Sensitivity

2023 IEEE International Conference on Soft Robotics (RoboSoft) Pub Date : 2023-04-03 DOI:10.1109/RoboSoft55895.2023.10121946

Chao Liu, Andrea Moncada, Hanna Matusik, Deniz Irem Erus, D. Rus

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引用次数: 2

Abstract

While parallel grippers and multi-fingered robotic hands are well developed and commonly used in structured settings, it remains a challenge in robotics to design a highly articulated robotic hand that can be comparable to human hands to handle various daily manipulation and grasping tasks. Dexterity usually requires more actuators but also leads to a more sophisticated mechanism design and is more expensive to fabricate and maintain. Soft materials are able to provide compliance and safety when interacting with the physical world but are hard to model. This work presents a hybrid bio-inspired robotic hand that combines soft matters and rigid elements. Sensing is integrated into the rigid bodies resulting in a simple way for pose estimation with high sensitivity. The proposed hand is in a modular structure allowing for rapid fabrication and programming. The fabrication process is carefully designed so that a full hand can be made with low-cost materials and assembled in an efficient manner. We demonstrate the dexterity of the hand by successfully performing human grasp types.

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具有高灵敏度的模块化仿生机械手

虽然平行抓手和多指机器人手已经得到了很好的发展，并且在结构化环境中得到了广泛的应用，但设计一个高度铰接式的机器人手，可以与人类的手相媲美，以处理各种日常操作和抓取任务，这仍然是机器人技术的一个挑战。灵巧性通常需要更多的执行器，但也导致更复杂的机构设计，更昂贵的制造和维护。软材料在与物理世界交互时能够提供遵从性和安全性，但很难建模。这个作品展示了一个混合生物灵感的机器人手，结合了软物质和刚性元素。将传感集成到刚体中，从而提供了一种简单的高灵敏度姿态估计方法。提出的手是一个模块化的结构，允许快速制造和编程。制作过程是精心设计的，因此可以用低成本的材料制作全手，并以高效的方式组装。我们通过成功地执行人类抓取类型来展示手的灵巧性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 IEEE International Conference on Soft Robotics (RoboSoft)

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