Research on AGV composition algorithm based on variable and complex environment

Wei Wang, Jiadong Zhong, Qingming Zhang, Tianbo Wang
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Abstract

Aiming at the traditional Gmapping algorithm with constant number of particles, which lead to the failure of composition in variable and complex environments, based on SLAM mapping technology, this paper proposed an Adaptive Sampling (AS) algorithm, which increased the number of sampling particles when the fluctuation of the 2D laser point cloud is larger than a certain threshold, and the experimental results shown that the algorithm was able to reasonably utilize the system resources, and effectively enhanced the algorithm’s ability to compose maps in a variable and complex environment. In addition, in order to make the system have a better effect of building maps in complex environments, this paper also integrated the firefly algorithm (AF) with it, and utilized AF’s high aggregation ability to improve the distribution of sampling particles, which then improved the estimation ability of the filter. Verified by offline real environment experiments, the results shown that the optimized algorithm significantly improves the map building ability of the system.
基于多变复杂环境的 AGV 组成算法研究
针对传统Gmapping算法颗粒数恒定,导致在多变复杂环境下无法组图的问题,本文基于SLAM制图技术,提出了自适应采样(AS)算法,当二维激光点云的波动大于一定阈值时,增加采样颗粒数,实验结果表明该算法能够合理利用系统资源,有效提升了算法在多变复杂环境下的组图能力。此外,为了使系统在复杂环境中构建地图的效果更好,本文还将萤火虫算法(AF)与之相结合,利用萤火虫算法的高聚集能力改善采样粒子的分布,进而提高滤波器的估计能力。通过离线真实环境实验验证,结果表明优化后的算法显著提高了系统的地图构建能力。
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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