Improved RRT-connect algorithm based on triangular inequality for robot path planning

Jin Gu Kang; Dong Woo Lim; Yong Sik Choi; Woo Jin Jang; Jin Woo Jung

doi:10.3390/s21020333

Improved RRT-connect algorithm based on triangular inequality for robot path planning

Jin Gu Kang, Dong Woo Lim, Yong Sik Choi, Woo Jin Jang, Jin Woo Jung

Department of Computer Science and Artificial Intelligence

Dongguk University

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

97 Scopus citations

Abstract

This paper proposed a triangular inequality-based rewiring method for the rapidly exploring random tree (RRT)-Connect robot path-planning algorithm that guarantees the planning time compared to the RRT algorithm, to bring it closer to the optimum. To check the proposed algorithm’s performance, this paper compared the RRT and RRT-Connect algorithms in various environments through simulation. From these experimental results, the proposed algorithm shows both quicker planning time and shorter path length than the RRT algorithm and shorter path length than the RRT-Connect algorithm with a similar number of samples and planning time.

Original language	English
Article number	333
Pages (from-to)	1-34
Number of pages	34
Journal	Sensors
Volume	21
Issue number	2
DOIs	https://doi.org/10.3390/s21020333
State	Published - 2 Jan 2021

Keywords

Optimality
Rewiring
Robot path planning
RRT-Connect
Triangular inequality

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abstract = "This paper proposed a triangular inequality-based rewiring method for the rapidly exploring random tree (RRT)-Connect robot path-planning algorithm that guarantees the planning time compared to the RRT algorithm, to bring it closer to the optimum. To check the proposed algorithm{\textquoteright}s performance, this paper compared the RRT and RRT-Connect algorithms in various environments through simulation. From these experimental results, the proposed algorithm shows both quicker planning time and shorter path length than the RRT algorithm and shorter path length than the RRT-Connect algorithm with a similar number of samples and planning time.",

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AU - Lim, Dong Woo

AU - Choi, Yong Sik

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AU - Jung, Jin Woo

PY - 2021/1/2

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N2 - This paper proposed a triangular inequality-based rewiring method for the rapidly exploring random tree (RRT)-Connect robot path-planning algorithm that guarantees the planning time compared to the RRT algorithm, to bring it closer to the optimum. To check the proposed algorithm’s performance, this paper compared the RRT and RRT-Connect algorithms in various environments through simulation. From these experimental results, the proposed algorithm shows both quicker planning time and shorter path length than the RRT algorithm and shorter path length than the RRT-Connect algorithm with a similar number of samples and planning time.

AB - This paper proposed a triangular inequality-based rewiring method for the rapidly exploring random tree (RRT)-Connect robot path-planning algorithm that guarantees the planning time compared to the RRT algorithm, to bring it closer to the optimum. To check the proposed algorithm’s performance, this paper compared the RRT and RRT-Connect algorithms in various environments through simulation. From these experimental results, the proposed algorithm shows both quicker planning time and shorter path length than the RRT algorithm and shorter path length than the RRT-Connect algorithm with a similar number of samples and planning time.

KW - Optimality

KW - Rewiring

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Improved RRT-connect algorithm based on triangular inequality for robot path planning

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Keywords

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