Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots

Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots

Due to the great adaptability, snake-like robots can serve as special intelligent service robots. In this article, a novel triple-layered central pattern generator (CPG)-based controller is proposed to control the 3D locomotion of snake-like robots. The proposed triple-layered CPG includes a rhythm...

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Main Authors: Guifang Qiao, Ying Zhang, Xiulan Wen, Zhong Wei, Junyu Cui
Format: Article
Language:English
Published: SAGE Publishing 2017-11-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.1177/1729881417738101
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spelling doaj-d6c83e96b21d4b5e828615daf3d6705c2020-11-25T03:42:55ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142017-11-011410.1177/1729881417738101Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robotsGuifang Qiao0Ying Zhang1Xiulan Wen2Zhong Wei3Junyu Cui4 School of Automation, Nanjing Institute of Technology, Nanjing, China School of Automation, Nanjing Institute of Technology, Nanjing, China School of Automation, Nanjing Institute of Technology, Nanjing, China School of Instrument Science and Engineering, Southeast University, Nanjing, China School of Automation, Nanjing Institute of Technology, Nanjing, ChinaDue to the great adaptability, snake-like robots can serve as special intelligent service robots. In this article, a novel triple-layered central pattern generator (CPG)-based controller is proposed to control the 3D locomotion of snake-like robots. The proposed triple-layered CPG includes a rhythm generation layer, a pattern generation layer, and a motoneuron layer. The nonlinear Kuramoto oscillator and the rhythmic dynamic movement primitive are, respectively, used to model the interneurons and motoneurons. The triple-layered CPG can flexibly generate the multidimensional phase-coordinated control signals of snake-like robots. Firstly, the architecture of the proposed triple-layered CPG is validated, and the impacts of control parameters on the outputs are numerically analyzed. Secondly, the smooth locomotion transition process of the triple-layered CPG is discussed. Finally, the performances of the proposed triple-layered CPG for controlling snake-like robots have been evaluated through the co-simulation of Simulink and MSC Adams [version 2012]. The results illustrate that the proposed triple-layered CPG can easily and flexibly generate continuous and smooth for controlling 3D locomotion of snake-like robots. It can improve the mobility and adaptability of snake-like robots.https://doi.org/10.1177/1729881417738101
collection DOAJ
language English
format Article
sources DOAJ
author Guifang Qiao
Ying Zhang
Xiulan Wen
Zhong Wei
Junyu Cui
spellingShingle Guifang Qiao
Ying Zhang
Xiulan Wen
Zhong Wei
Junyu Cui
Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
International Journal of Advanced Robotic Systems
author_facet Guifang Qiao
Ying Zhang
Xiulan Wen
Zhong Wei
Junyu Cui
author_sort Guifang Qiao
title Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
title_short Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
title_full Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
title_fullStr Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
title_full_unstemmed Triple-layered central pattern generator-based controller for 3D locomotion control of snake-like robots
title_sort triple-layered central pattern generator-based controller for 3d locomotion control of snake-like robots
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2017-11-01
description Due to the great adaptability, snake-like robots can serve as special intelligent service robots. In this article, a novel triple-layered central pattern generator (CPG)-based controller is proposed to control the 3D locomotion of snake-like robots. The proposed triple-layered CPG includes a rhythm generation layer, a pattern generation layer, and a motoneuron layer. The nonlinear Kuramoto oscillator and the rhythmic dynamic movement primitive are, respectively, used to model the interneurons and motoneurons. The triple-layered CPG can flexibly generate the multidimensional phase-coordinated control signals of snake-like robots. Firstly, the architecture of the proposed triple-layered CPG is validated, and the impacts of control parameters on the outputs are numerically analyzed. Secondly, the smooth locomotion transition process of the triple-layered CPG is discussed. Finally, the performances of the proposed triple-layered CPG for controlling snake-like robots have been evaluated through the co-simulation of Simulink and MSC Adams [version 2012]. The results illustrate that the proposed triple-layered CPG can easily and flexibly generate continuous and smooth for controlling 3D locomotion of snake-like robots. It can improve the mobility and adaptability of snake-like robots.
url https://doi.org/10.1177/1729881417738101
work_keys_str_mv AT guifangqiao triplelayeredcentralpatterngeneratorbasedcontrollerfor3dlocomotioncontrolofsnakelikerobots
AT yingzhang triplelayeredcentralpatterngeneratorbasedcontrollerfor3dlocomotioncontrolofsnakelikerobots
AT xiulanwen triplelayeredcentralpatterngeneratorbasedcontrollerfor3dlocomotioncontrolofsnakelikerobots
AT zhongwei triplelayeredcentralpatterngeneratorbasedcontrollerfor3dlocomotioncontrolofsnakelikerobots
AT junyucui triplelayeredcentralpatterngeneratorbasedcontrollerfor3dlocomotioncontrolofsnakelikerobots
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