Colony Intelligence for Autonomous Wheeled Robot Path Planning

2020 28th National Conference with International Participation (TELECOM) Pub Date : 2020-10-29 DOI:10.1109/TELECOM50385.2020.9299536
A. Anguelov, R. Trifonov, Ognian Nakov
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引用次数: 1

Abstract

Mobile robot path planning in dynamic environments answers the question of how to find the shortest path from the initial position to its final destination by avoiding any obstacle. This paper is trying to improve known probabilistic sampling-based algorithms for the road map robot planning introducing a hybrid between wave-front planner cell technique, tangent bug algorithm, and ant colony intelligence strategies, thus minimize the heuristic logic dropping ineffective paths to the target. The proposed colony intelligence tangent bug algorithm (CITBA) determines the shortest path taking into account available historical sensor data for the dynamic surroundings inside the landscape and collected from all autonomous robots while travailing.
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自主轮式机器人路径规划的群体智能
动态环境下的移动机器人路径规划问题是如何在避开障碍物的情况下找到从初始位置到最终目的地的最短路径。本文试图改进已知的基于概率抽样的路线图机器人规划算法,引入波前规划单元技术、切线错误算法和蚁群智能策略的混合,从而最大限度地减少启发式逻辑导致的无效路径到目标。提出的蚁群智能切线bug算法(CITBA)考虑到景观内动态环境的可用历史传感器数据以及从所有自主机器人在行走时收集的数据,确定了最短路径。
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2020 28th National Conference with International Participation (TELECOM)
2020 28th National Conference with International Participation (TELECOM)
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