CPGs with Continuous Adjustment of Phase Difference for Locomotion Control

CPGs with Continuous Adjustment of Phase Difference for Locomotion Control

The central pattern generator (CPG) has been found to be a real, existing neuron controller for the locomotion control of animals and it has been used on bio-inspired robots widely in recent years. However, research on the adaptability of CPG-based locomotion control methods is still a challenge. In...

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Main Authors: Xingming Wu, Long Teng, Weihai Chen, Guanjiao Ren, Yan Jin, gwei Li
Format: Article
Language:English
Published: SAGE Publishing 2013-06-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.5772/56490
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spelling doaj-f06ab5e2d5db4b03bd38134efaa8fd9c2020-11-25T03:06:44ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142013-06-011010.5772/5649010.5772_56490CPGs with Continuous Adjustment of Phase Difference for Locomotion ControlXingming Wu0Long Teng1Weihai Chen2Guanjiao Ren3Yan Jin4gwei Li5 School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing, China School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing, China School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing, China School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing, China School of Mechanical and Aerospace Engineering, Queen's University Belfast, Belfast, UK School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing, ChinaThe central pattern generator (CPG) has been found to be a real, existing neuron controller for the locomotion control of animals and it has been used on bio-inspired robots widely in recent years. However, research on the adaptability of CPG-based locomotion control methods is still a challenge. In particular, the performance of the CPG method on quadruped robots is not good enough in some situations compared with the traditional force control methods. In this article, we adopt a CPG method in which phase difference between oscillators can be arbitrarily adjusted, and we try to improve the CPG's applications in quadruped robots in some aspects. One aspect is static walk gait locomotion, in which we try to add a transition state in the CPG network to enhance the static balance of the robot. Another aspect is gait transition. Compared with the traditional abrupt gait transition, we try to realize a continuous gait transition between walk gait and trot gait to decrease the fluctuations of the robot. The improved CPG method is tested on a quadruped model and it shows positive results with regard to the improvement of static walk gait and gait transitions.https://doi.org/10.5772/56490
collection DOAJ
language English
format Article
sources DOAJ
author Xingming Wu
Long Teng
Weihai Chen
Guanjiao Ren
Yan Jin
gwei Li
spellingShingle Xingming Wu
Long Teng
Weihai Chen
Guanjiao Ren
Yan Jin
gwei Li
CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
International Journal of Advanced Robotic Systems
author_facet Xingming Wu
Long Teng
Weihai Chen
Guanjiao Ren
Yan Jin
gwei Li
author_sort Xingming Wu
title CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
title_short CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
title_full CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
title_fullStr CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
title_full_unstemmed CPGs with Continuous Adjustment of Phase Difference for Locomotion Control
title_sort cpgs with continuous adjustment of phase difference for locomotion control
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2013-06-01
description The central pattern generator (CPG) has been found to be a real, existing neuron controller for the locomotion control of animals and it has been used on bio-inspired robots widely in recent years. However, research on the adaptability of CPG-based locomotion control methods is still a challenge. In particular, the performance of the CPG method on quadruped robots is not good enough in some situations compared with the traditional force control methods. In this article, we adopt a CPG method in which phase difference between oscillators can be arbitrarily adjusted, and we try to improve the CPG's applications in quadruped robots in some aspects. One aspect is static walk gait locomotion, in which we try to add a transition state in the CPG network to enhance the static balance of the robot. Another aspect is gait transition. Compared with the traditional abrupt gait transition, we try to realize a continuous gait transition between walk gait and trot gait to decrease the fluctuations of the robot. The improved CPG method is tested on a quadruped model and it shows positive results with regard to the improvement of static walk gait and gait transitions.
url https://doi.org/10.5772/56490
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AT longteng cpgswithcontinuousadjustmentofphasedifferenceforlocomotioncontrol
AT weihaichen cpgswithcontinuousadjustmentofphasedifferenceforlocomotioncontrol
AT guanjiaoren cpgswithcontinuousadjustmentofphasedifferenceforlocomotioncontrol
AT yanjin cpgswithcontinuousadjustmentofphasedifferenceforlocomotioncontrol
AT gweili cpgswithcontinuousadjustmentofphasedifferenceforlocomotioncontrol
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