基于最小感知的街道行走在线优化策略

Qi Wei, X. Tan
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引用次数: 1

摘要

本文研究了移动机器人在街道上行走的问题。机器人从点s开始搜索目标点t。机器人配备最小传感传感器,只能检测深度信息中的不连续(或间隙),但不具有街道的先验知识。我们的策略的表现是根据竞争比率来衡量的,相对于在街上行走的最佳路径的长度。我们提出了一种新的9竞争策略,并通过给出一个匹配的下界来证明它是最优的,而之前Tabatabaei等人提出的最佳策略的竞争比为11。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An optimal on-line strategy for walking in streets with minimal sensing
This paper considers the problem of walking in the street with a mobile robot. The robot starts from a point s to search the target point t. The robot is equipped with a minimal sensing sensor that can only detect the discontinuities in depth information (or gaps), but has no prior knowledge of the street. The performance of our strategy is measured in terms of the competitive ratio, with respect to the length of the optimal path for walking in the street with complete knowledge. We propose a new 9-competitive strategy, and prove that it is optimal by showing a matching lower bound, whereas the previous best approach proposed by Tabatabaei et al. has a competitive ratio of 11.
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