Dynamic Path Following Control of a Ground Ackerman Steering Robot to Avoid a Collision

Guangming Xiong; Xiaoyun Li

doi:10.15918/j.jbit1004-0579.201726.0205

Dynamic Path Following Control of a Ground Ackerman Steering Robot to Avoid a Collision

Guangming Xiong^*, Xiaoyun Li

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A novel method is proposed to dynamically control the path following of a ground Ackerman steering robot to avoid a collision. The method consists of collision prediction module, collision avoidance module and global path following module. The elliptic repulsive potential field method (ER-PFM) and the enhanced vector polar histogram method (VPH+) based on the Ackerman steering model are proposed to predict the collision in a dynamic environment. The collision avoidance is realized by the proposed cost function and speed control law. The global path following process is achieved by pure pursuit. Experiments show that the robot can fulfill the dynamic path following task safely and efficiently using the proposed method.

Original language	English
Pages (from-to)	174-182
Number of pages	9
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	26
Issue number	2
DOIs	https://doi.org/10.15918/j.jbit1004-0579.201726.0205
Publication status	Published - 1 Jun 2017

Keywords

Ackerman steering model
Collision avoidance
Dynamic path following
Elliptic repulsive potential field method (ER-PFM)
Improved vector polar histogram method (VPH+)

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10.15918/j.jbit1004-0579.201726.0205

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title = "Dynamic Path Following Control of a Ground Ackerman Steering Robot to Avoid a Collision",

abstract = "A novel method is proposed to dynamically control the path following of a ground Ackerman steering robot to avoid a collision. The method consists of collision prediction module, collision avoidance module and global path following module. The elliptic repulsive potential field method (ER-PFM) and the enhanced vector polar histogram method (VPH+) based on the Ackerman steering model are proposed to predict the collision in a dynamic environment. The collision avoidance is realized by the proposed cost function and speed control law. The global path following process is achieved by pure pursuit. Experiments show that the robot can fulfill the dynamic path following task safely and efficiently using the proposed method.",

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author = "Guangming Xiong and Xiaoyun Li",

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T1 - Dynamic Path Following Control of a Ground Ackerman Steering Robot to Avoid a Collision

AU - Xiong, Guangming

AU - Li, Xiaoyun

PY - 2017/6/1

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N2 - A novel method is proposed to dynamically control the path following of a ground Ackerman steering robot to avoid a collision. The method consists of collision prediction module, collision avoidance module and global path following module. The elliptic repulsive potential field method (ER-PFM) and the enhanced vector polar histogram method (VPH+) based on the Ackerman steering model are proposed to predict the collision in a dynamic environment. The collision avoidance is realized by the proposed cost function and speed control law. The global path following process is achieved by pure pursuit. Experiments show that the robot can fulfill the dynamic path following task safely and efficiently using the proposed method.

AB - A novel method is proposed to dynamically control the path following of a ground Ackerman steering robot to avoid a collision. The method consists of collision prediction module, collision avoidance module and global path following module. The elliptic repulsive potential field method (ER-PFM) and the enhanced vector polar histogram method (VPH+) based on the Ackerman steering model are proposed to predict the collision in a dynamic environment. The collision avoidance is realized by the proposed cost function and speed control law. The global path following process is achieved by pure pursuit. Experiments show that the robot can fulfill the dynamic path following task safely and efficiently using the proposed method.

KW - Ackerman steering model

KW - Collision avoidance

KW - Dynamic path following

KW - Elliptic repulsive potential field method (ER-PFM)

KW - Improved vector polar histogram method (VPH+)

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Dynamic Path Following Control of a Ground Ackerman Steering Robot to Avoid a Collision

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