基于多目标元启发式搜索的6D机器人多目标轨迹规划

Proceedings of the 2018 VII International Conference on Network, Communication and Computing Pub Date : 2018-12-14 DOI:10.1145/3301326.3301356

N. Pholdee, Sujin Bureerat

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引用次数: 0

摘要

本文采用多目标元启发式方法求解多目标时跳机器人轨迹规划问题。优化问题提出了最小化旅行时间和受速度，加速度和加速度约束的震动。设计变量包括关节位置和中间位置(通过位置)的速度，以及从初始位置到中间位置和从中间位置到最终位置的移动时间。在研究多目标多目标优化问题的同时，利用多目标多目标多目标优化算法求解机器人操纵臂的轨迹优化问题。在此基础上，找到了多目标时跳机器人轨迹规划的最佳最小最小熵，并将该方法的结果作为进一步研究机器人轨迹规划多目标优化的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Multiobjective Trajectory Planning of a 6D Robot based on Multiobjective Meta Heuristic Search

In this work, several established multiobjective meta-heuristics (MOMHs) were employed for solving multiobjective time-jerk robot trajectory planning. The optimisation problem is posed to minimise travelling time and jerk subject to velocity, acceleration and jerk constraints. The design variables include joint position and velocity at intermediate positions (passing position), and moving time from the initial position to the intermediate position and from the intermediate position to the final position. Several MOMHs are used to solve the trajectory multiobjective optimisation problem of robot manipulators while their performances are investigated. Based on this study, the best MOMH for multiobjective time-jerk robot trajectory planning is found while the results obtained from such a method are set as the baseline for further study of robot trajectory planning multiobjective optimisation.

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Proceedings of the 2018 VII International Conference on Network, Communication and Computing

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