简短公告:线性时间内遗忘机器人的完全可见性

Proceedings of the 29th ACM Symposium on Parallelism in Algorithms and Architectures Pub Date : 2017-07-24 DOI:10.1145/3087556.3087591

Gokarna Sharma, C. Busch, S. Mukhopadhyay

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引用次数: 10

摘要

我们考虑$N$自主移动机器人的分布式设置，这些机器人按照著名的经典遗忘机器人模型在Look-Compute-Move周期中运行。我们研究的基本问题是从任意初始配置开始，N个自主机器人将自己重新定位到平面上的凸壳编队，其中每个机器人对所有其他机器人都是可见的(完全可见性问题)。我们假设能见度受阻，即如果第三个机器人在连接它们的直线上位于它们之间，则机器人无法看到另一个机器人。在完全同步的情况下，我们给出了第一个求解该问题的\cO(N)时间算法。我们的贡献是对该问题的唯一已知算法的运行时间的显著改进，该算法的下界为\Omega(N^2)。我们提出的算法是无碰撞的——机器人不会共享位置，它们的路径也不会交叉。

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Brief Announcement: Complete Visibility for Oblivious Robots in Linear Time

We consider the distributed setting of $N$ autonomous mobile robots that operate in Look-Compute-Move cycles following the well-celebrated classic oblivious robots model. We study the fundamental problem where starting from an arbitrary initial configuration, N autonomous robots reposition themselves to a convex hull formation on the plane where each robot is visible to all others (the Complete Visibility problem). We assume obstructed visibility, where a robot cannot see another robot if a third robot is positioned between them on the straight line connecting them. We provide the first \cO(N) time algorithm for this problem in the fully synchronous setting. Our contribution is a significant improvement over the runtime of the only previously known algorithm for this problem which has a lower bound of \Omega(N^2). Our proposed algorithm is collision-free -- robots do not share positions and their paths do not cross.

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Proceedings of the 29th ACM Symposium on Parallelism in Algorithms and Architectures

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