Collaborative dispersion by silent robots

IF 3.4 3区计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS Journal of Parallel and Distributed Computing Pub Date : 2024-02-05 DOI:10.1016/j.jpdc.2024.104852

Barun Gorain , Partha Sarathi Mandal , Kaushik Mondal , Supantha Pandit

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Abstract

In the dispersion problem, a set of k co-located mobile robots must relocate themselves in distinct nodes of an unknown network. The network is modeled as an anonymous graph $G = (V, E)$ , where the graph's nodes are not labeled. The edges incident to a node v with degree d are labeled with port numbers in the range ${0, 1, \dots, d - 1}$ at v. The robots have unique IDs in the range $[0, L]$ , where $L \geq k$ , and are initially placed at a source node s. The task of the dispersion was traditionally achieved based on the assumption of two types of communication abilities: (a) when some robots are at the same node, they can communicate by exchanging messages between them, and (b) any two robots in the network can exchange messages between them. This paper investigates whether this communication ability among co-located robots is absolutely necessary to achieve dispersion. We establish that even in the absence of the ability of communication, the task of the dispersion by a set of mobile robots can be achieved in a much weaker model, where a robot at a node v has access to following very restricted information at the beginning of any round: (1) am I alone at v? (2) did the number of robots at v increase or decrease compared to the previous round?

We propose a deterministic distributed algorithm that achieves the dispersion on any given graph $G = (V, E)$ in time $O (k \log L + k^{2} \log Δ)$ , where Δ is the maximum degree of a node in G. Further, each robot uses $O (\log L + \log Δ)$ additional memory, i.e., memory other than the memory required to store its id. We also prove that the task of the dispersion cannot be achieved by a set of mobile robots with $o (\log L + \log Δ)$ additional memory.

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无声机器人协同分散

在分散问题中，一组 k 个共同定位的移动机器人必须在一个未知网络的不同节点上重新定位。该网络被建模为一个匿名图 G=（V,E），图中的节点没有标记。机器人的 ID 范围为 [0,L]（其中 L≥k），并且最初被放置在一个源节点 s 上。传统上，分散任务的实现基于两种通信能力假设：(a) 当一些机器人处于同一节点时，它们之间可以通过交换信息进行通信；(b) 网络中的任何两个机器人之间都可以交换信息。本文研究了同处一地的机器人之间的通信能力是否是实现分散的绝对必要条件。我们发现，即使没有通信能力，一组移动机器人的分散任务也可以在一个弱得多的模型中实现，即节点 v 上的机器人在任何一轮开始时都能获得以下非常有限的信息：(1) v 上只有我一个人吗？(我们提出了一种确定性分布式算法，可在 O(klogL+k2logΔ) 的时间内实现任意给定图 G=(V,E) 的分散，其中 Δ 是 G 中节点的最大度数、内存。我们还证明，使用 O(logL+logΔ) 额外内存的一组移动机器人无法完成分散任务。

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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来源期刊

Journal of Parallel and Distributed Computing 工程技术-计算机：理论方法

CiteScore

10.30

自引率

2.60%

发文量

172

审稿时长

12 months

期刊介绍： This international journal is directed to researchers, engineers, educators, managers, programmers, and users of computers who have particular interests in parallel processing and/or distributed computing. The Journal of Parallel and Distributed Computing publishes original research papers and timely review articles on the theory, design, evaluation, and use of parallel and/or distributed computing systems. The journal also features special issues on these topics; again covering the full range from the design to the use of our targeted systems.

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