Design and kinematics of a novel continuum robot connected by unique offset cross revolute joints

Journal of Mechanisms and Robotics Pub Date : 2024-03-14 DOI:10.1115/1.4065084

Xuhao Wang, Chengfa Wang, Mengli Wu, Mingyu Li, Yilong Xu, Guanhao Li, Zhiyong Guo, Yiran Cao

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Abstract

Continuum robots have continuous structures and inherent compliance, which can be used for accessing unstructured and confined space in many fields, such as minimally invasive surgery and aero-engine in-situ inspection. A novel continuum robot connected by unique offset cross shaft joints is proposed in this paper, which has excellent bending capacity and appropriate torsional stiffness. Meanwhile, a cable-driven system is designed to actuate it. Furthermore, the kinematic modeling and analysis are carried out. The mappings among robot's actuator space, joint space and task space are established step by step. Particularly, an improved inverse kinematics algorithm is proposed by combining the constant curvature method with the numerical iterative method. This combined inverse kinematics algorithm can effectively reduce the error of approximate solution derived by the traditional constant curvature method. Numerical simulations are conducted to verify the proposed algorithm and analyze workspace of the continuum robot. Finally, experimental prototype of the robot is built to verify its excellent bending capacity and the correctness of the proposed kinematic model.

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新型连续机器人的设计与运动学：通过独特的偏置交叉旋转接头进行连接

连续体机器人具有连续的结构和固有的顺应性，可用于进入非结构化和密闭空间，应用于微创手术和航空发动机原位检测等多个领域。本文提出了一种新型连续体机器人，它通过独特的偏置横轴接头连接，具有出色的抗弯能力和适当的抗扭刚度。同时，还设计了一个电缆驱动系统来对其进行驱动。此外，还进行了运动学建模和分析。逐步建立了机器人执行器空间、关节空间和任务空间之间的映射关系。特别是，通过将恒定曲率法与数值迭代法相结合，提出了一种改进的逆运动学算法。这种组合式逆运动学算法能有效减少传统恒定曲率法得出的近似解的误差。通过数值模拟验证了所提出的算法，并分析了连续机器人的工作空间。最后，制作了机器人的实验原型，以验证其出色的弯曲能力和所提出的运动学模型的正确性。

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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Journal of Mechanisms and Robotics

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