Self - Propelled Robotic System with a Visco - Elastic Joint Dynamics and Motion Analysis.pdf (912.95 kB)
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Self - Propelled Robotic System with a Visco - Elastic Joint: Dynamics and Motion Analysis

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journal contribution
posted on 04.03.2022, 13:01 by Pengcheng Liu, M. Nazmul Huda, Zhichuan Tang, Li Sun
This paper studies the dynamics and motion generation of a self - propelled robotic system with a visco - elastic joint. The system is underactuated, legless and wheelless, and has potential applications in environmental inspection and operation in restricted space which are inaccessible to human beings, such as pipeline inspection, medical assistance and disaster rescues. Locomotion of the system relie s on the stick - slip effects, which interacts with the frictional force at the surface in contact. The nonlinear robotic model utilizes combined tangential - wise and normal - wise vibrations for underactuated locomotion, which features a generic significance f or the studies on self - propelled systems. To identify the characteristics of the visco - elastic joint and shed light on the energy efficacy, parameter dependences on stiffness and damping coefficients are thoroughly analysed. Our studies demonstrate that dy namic behaviour of the self - propelled system is mainly periodic and desirable forward motion is achieved via identification of the variation laws of the control parameters and elaborate selection of the stiffness and damping coefficients. A motion generati on strategy is developed, and an analytical two - stage motion profile is proposed based on the system response and dynamic constraint analysis, followed by a parameterization procedure to optimally generate the trajectory. The proposed method provides a nov el approach in generating self - propelled locomotion, and designing and computing the visco - elastic parameters for energy efficacy. Simulation results are presented to demonstrate the effectiveness and feasibility of the proposed model and motion generation approach.

Funding

This research was supported in part by the National Natural Science Foundation of China project (No. 61803396 and No. 61702454), and by the MOE (Ministry of Education in China) Project of Humanities and Social Sciences (No. 17YJC870018)

History

Published in

Engineering with Computers

Publisher

Springer Verlag

Version

AM (Accepted Manuscript)

Citation

Liu, P., Huda, M.N., Tang, Z. and Sun, L. (2019) 'A self-propelled robotic system with a visco-elastic joint: dynamics and motion analysis', Engineering with Computers, doi: 10.1007/s00366-019-00722-3

Print ISSN

0177-0667

Electronic ISSN

1435-5663

Cardiff Met Affiliation

  • Cardiff School of Technologies

Cardiff Met Authors

Pengcheng Liu

Copyright Holder

© The Publisher

Language

en