Path Optimization for Automatic Guided Vehicle Based on Fusion Algorithm of Particle Swarm and Ant Colony

Purpose – The purpose of this paper is to study the path optimization method of the manipulator in the lunar soil excavation and sampling process. The current research is a practical need for the excavation and sampling of the lunar soil in the lunar exploration project. Design/methodology/approach – This paper proposes the objective function and constraints for path optimization during the excavation process of the lunar soil, regarding excavation time and energy consumption as the two key fitness indexes by analyzing the whole excavation process of the lunar soil. Specifically, the optimization is divided into two consecutive phases, one for the excavation path and the other one for joint motions. In the first phase, the Bézier polynomial is adopted to get the optimal excavation angle and reduce energy consumption. In the second phase, a method based on convex optimization, variable conversion and dynamic process discretization, is used to reduce excavation time and energy consumption. Findings – Controlled experiments on the fine sand and the simulant lunar soil were conducted to verify the feasibility and effectiveness of the two phases of the optimization method, respectively. Originality/value – The optimization method of the excavation tasks in this paper is of great value in theoretical and practical engineering, and it can be applied in other robotic operational tasks as well.

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Research on PAGV path planning based on artificial immune ant colony fusion algorithm

Liao¹

2018

IFS

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Path Optimization for Automatic Guided Vehicle Based on Fusion Algorithm of Particle Swarm and Ant Colony

Cited by 3 publications

References 3 publications

A Multi-AGV Optimal Scheduling Algorithm Based on Particle Swarm Optimization

A Multi-AGV Optimal Scheduling Algorithm Based on Particle Swarm Optimization

Path optimization of excavating manipulator in lunar soil sampling

Research on PAGV path planning based on artificial immune ant colony fusion algorithm

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