TY - GEN
T1 - An Optimized Cable Layout Method for Cable-Driven Continuum Robots
AU - Yang, Zheshuai
AU - Yang, Laihao
AU - Yang, Dong
AU - Lan, Yu
AU - Sun, Yu
AU - Chen, Xuefeng
N1 - Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
PY - 2023
Y1 - 2023
N2 - Cable-driven continuum robots, inspired by natural biologies such as elephants and octopuses, have countless numbers of degrees of freedom, permitting them to carry out special tasks in confined space. However, the slender manipulator driven by cables also results in a significant number of driving motors integrated at the end of manipulator, which complicates the control of continuum robot. In this paper, to solve the problem, we optimize the cable layout based on the analysis of the cable length variation principle. First and foremost, a cable layout method of the shared motor is proposed, which can achieve the complete control of a continuum robot by employing half the number of motors. And then, the kinematics for the proposed cable layout is established based on the assumption of piecewise constant curvature. Finally, the experimental platform is constructed to evaluate the effectiveness of the proposed methods. The experimental results suggest that the optimized cable layout method can achieve the control of a double-section continuum robot by employing four motors. Moreover, it is worthy to be noted that, to some degree, the proposed cable layout method can effectively decrease the influence of gravity, which maximally improves 92.16% of the tip position accuracy.
AB - Cable-driven continuum robots, inspired by natural biologies such as elephants and octopuses, have countless numbers of degrees of freedom, permitting them to carry out special tasks in confined space. However, the slender manipulator driven by cables also results in a significant number of driving motors integrated at the end of manipulator, which complicates the control of continuum robot. In this paper, to solve the problem, we optimize the cable layout based on the analysis of the cable length variation principle. First and foremost, a cable layout method of the shared motor is proposed, which can achieve the complete control of a continuum robot by employing half the number of motors. And then, the kinematics for the proposed cable layout is established based on the assumption of piecewise constant curvature. Finally, the experimental platform is constructed to evaluate the effectiveness of the proposed methods. The experimental results suggest that the optimized cable layout method can achieve the control of a double-section continuum robot by employing four motors. Moreover, it is worthy to be noted that, to some degree, the proposed cable layout method can effectively decrease the influence of gravity, which maximally improves 92.16% of the tip position accuracy.
KW - Cable layout
KW - Continuum robots
KW - Kinematics
KW - Shape estimation
UR - https://www.scopus.com/pages/publications/85164023785
U2 - 10.1007/978-981-19-9398-5_28
DO - 10.1007/978-981-19-9398-5_28
M3 - 会议稿件
AN - SCOPUS:85164023785
SN - 9789811993978
T3 - Lecture Notes in Mechanical Engineering
SP - 491
EP - 500
BT - Advances in Mechanism, Machine Science and Engineering in China - Proceedings of IFToMM CCMMS 2022
A2 - Liu, Xinjun
PB - Springer Science and Business Media Deutschland GmbH
T2 - 23rd IFToMM China International Conference on Mechanism and Machine Science and Engineering, IFToMM CCMMS 2022
Y2 - 30 July 2022 through 1 August 2022
ER -