On the power of bounded asynchrony: convergence by autonomous robots with limited visibility

IF 1.3 4区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS
David Kirkpatrick, Irina Kostitsyna, Alfredo Navarra, Giuseppe Prencipe, Nicola Santoro
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引用次数: 0

Abstract

A distributed algorithm \({\mathcal {A}}\) solves the Point Convergence task if an arbitrarily large collection of entities, starting in an arbitrary configuration, move under the control of \({\mathcal {A}}\) to eventually form and thereafter maintain configurations in which the separation between all entities is arbitrarily small. This fundamental task in the standard \(\mathcal {OBLOT}\) model of autonomous mobile entities has been previously studied in a variety of settings, including full visibility, exact measurements (including distances and angles), and synchronous activation of entities. Our study concerns the minimal assumptions under which entities, moving asynchronously with limited and unknown visibility range and subject to limited imprecision in measurements, can be guaranteed to converge in this way. We present an algorithm operating under these constraints that solves Point Convergence, for entities moving in two or three dimensional space, with any bounded degree of asynchrony. We also prove that under similar realistic constraints, but unbounded asynchrony, Point Convergence in the plane is not possible in general, contingent on the natural assumption that algorithms maintain the (visible) connectivity among entities present in the initial configuration. This variant, that we call Cohesive Convergence, serves to distinguish the power of bounded and unbounded asynchrony in the control of autonomous mobile entities, settling a long-standing question whether in the Euclidean plane synchronously scheduled entities are more powerful than asynchronously scheduled entities.

Abstract Image

有界异步的力量:能见度有限的自主机器人的趋同性
分布式算法\({\mathcal {A}}\解决了点收敛任务,如果一个任意大的实体集合从任意配置开始,在\({\mathcal {A}}\的控制下移动,最终形成并保持所有实体之间的距离任意小的配置。之前已经在各种环境下研究过自主移动实体的标准({\mathcal {OBLOT})模型中的这一基本任务,包括完全可见性、精确测量(包括距离和角度)以及实体的同步激活。我们的研究涉及最小的假设条件,在这些假设条件下,实体在有限且未知的可见度范围内异步移动,并受到有限的不精确测量的影响,可以保证以这种方式收敛。我们提出了一种在这些约束条件下运行的算法,该算法可以解决点收敛问题,适用于在二维或三维空间中移动的实体,具有任何有界的异步程度。我们还证明,在类似的现实约束条件下,但在不受约束的异步情况下,平面上的点收敛一般是不可能的,这取决于算法保持初始配置中实体间(可见的)连通性这一自然假设。我们将这种变体称为 "内聚"(Cohesive Convergence),它有助于区分有界异步和无界异步在自主移动实体控制中的威力,解决了一个长期存在的问题,即在欧几里得平面上,同步调度的实体是否比异步调度的实体更强大。
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来源期刊
Distributed Computing
Distributed Computing 工程技术-计算机:理论方法
CiteScore
3.20
自引率
0.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: The international journal Distributed Computing provides a forum for original and significant contributions to the theory, design, specification and implementation of distributed systems. Topics covered by the journal include but are not limited to: design and analysis of distributed algorithms; multiprocessor and multi-core architectures and algorithms; synchronization protocols and concurrent programming; distributed operating systems and middleware; fault-tolerance, reliability and availability; architectures and protocols for communication networks and peer-to-peer systems; security in distributed computing, cryptographic protocols; mobile, sensor, and ad hoc networks; internet applications; concurrency theory; specification, semantics, verification, and testing of distributed systems. In general, only original papers will be considered. By virtue of submitting a manuscript to the journal, the authors attest that it has not been published or submitted simultaneously for publication elsewhere. However, papers previously presented in conference proceedings may be submitted in enhanced form. If a paper has appeared previously, in any form, the authors must clearly indicate this and provide an account of the differences between the previously appeared form and the submission.
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