Home /Research /CPG-based control of smooth transition for body shape and locomotion speed of a snake-like robot
LOCOMOTION

CPG-based control of smooth transition for body shape and locomotion speed of a snake-like robot

Zhenshan Bing, Long Cheng, Kai Huang, Mingchuan Zhou, Alois Knoll

Year
2017
Citations
21

Abstract

In this paper, a lightweight central pattern generator(CPG) model is designed for a snake-like robot, to achieve smooth transition of body shape and locomotion speed. First, based on the convergence behavior of the gradient system, a lightweight CPG model with fast computing time is designed and compared with other widely adopted CPG models. Then, the body shape and locomotion speed transitions in rolling gait are simulated based on the proposed CPG model. Compared with the sinusoid-based method, a smooth transition process can be achieved, without generating undesired movement or abnormal torque. Finally, extensive prototype experiments are conducted to demonstrate that the CPG-based control can effectively ensure smooth transition process and avoid abnormal torque, when the body shape and locomotion speed are changed.

Keywords

Central pattern generatorCpG siteTorqueGaitControl theory (sociology)Process (computing)Computer scienceRobotRobot locomotionConvergence (economics)

Related papers

Browse all LOCOMOTION papers