Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility

David Kirkpatrick; Irina Kostitsyna; Alfredo Navarra; Giuseppe Prencipe; Nicola Santoro

doi:10.1145/3465084.3467910

Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility

David Kirkpatrick, Irina Kostitsyna, Alfredo Navarra, Giuseppe Prencipe, Nicola Santoro

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

9 Citations (Scopus)

Abstract

We consider distributed computations, by identical autonomous mobile entities, that solve the Point Convergence problem: given an arbitrary initial configuration of entities, disposed in the Euclidean plane, move in such a way that, for all ϵ>0, a configuration is eventually reached and maintained in which the separation between all entities is at most ϵ. The problem has been previously studied in a variety of settings. 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 that solves Point Convergence, provided the degree of asynchrony is bounded by some arbitrarily large but fixed constant. This provides a strong positive answer to a decade old open question posed by Katreniak. We also prove that, in an otherwise comparable setting, Point Convergence is impossible with unbounded asynchrony. This serves to distinguish the power of bounded and unbounded asynchrony in the control of autonomous mobile entities, settling at the same time a long-standing question whether in the Euclidean plane synchronous entities are more powerful than asynchronous ones.

Original language	English
Title of host publication	PODC 2021 - Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing
Publisher	Association for Computing Machinery, Inc
Pages	9-19
Number of pages	11
ISBN (Electronic)	9781450385480
DOIs	https://doi.org/10.1145/3465084.3467910
Publication status	Published - 21 Jul 2021
Event	40th ACM SIGACT-SIGOPS Symposium on Principles of Distributed Computing, PODC 2021 - Virtual, Online, Italy Duration: 26 Jul 2021 → 30 Jul 2021

Conference

Conference	40th ACM SIGACT-SIGOPS Symposium on Principles of Distributed Computing, PODC 2021
Country/Territory	Italy
City	Virtual, Online
Period	26/07/21 → 30/07/21

Bibliographical note

Funding Information:
∗The paper has been supported in part by the Natural Sciences and Engineering Research Council (Canada) under Discovery Grants A3583 and A2415, and by the Italian National Group for Scientific Computation GNCS-INdAM.

Publisher Copyright:
© 2021 ACM.

Funding

∗The paper has been supported in part by the Natural Sciences and Engineering Research Council (Canada) under Discovery Grants A3583 and A2415, and by the Italian National Group for Scientific Computation GNCS-INdAM.

Keywords

asynchrony
distributed geometric algorithms
mobile robots

Access to Document

10.1145/3465084.3467910

Cite this

Kirkpatrick, D., Kostitsyna, I., Navarra, A., Prencipe, G., & Santoro, N. (2021). Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility. In PODC 2021 - Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing (pp. 9-19). Association for Computing Machinery, Inc. https://doi.org/10.1145/3465084.3467910

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title = "Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility",

abstract = "We consider distributed computations, by identical autonomous mobile entities, that solve the Point Convergence problem: given an arbitrary initial configuration of entities, disposed in the Euclidean plane, move in such a way that, for all ϵ>0, a configuration is eventually reached and maintained in which the separation between all entities is at most ϵ. The problem has been previously studied in a variety of settings. 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 that solves Point Convergence, provided the degree of asynchrony is bounded by some arbitrarily large but fixed constant. This provides a strong positive answer to a decade old open question posed by Katreniak. We also prove that, in an otherwise comparable setting, Point Convergence is impossible with unbounded asynchrony. This serves to distinguish the power of bounded and unbounded asynchrony in the control of autonomous mobile entities, settling at the same time a long-standing question whether in the Euclidean plane synchronous entities are more powerful than asynchronous ones. ",

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Kirkpatrick, D, Kostitsyna, I, Navarra, A, Prencipe, G & Santoro, N 2021, Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility. in PODC 2021 - Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing. Association for Computing Machinery, Inc, pp. 9-19, 40th ACM SIGACT-SIGOPS Symposium on Principles of Distributed Computing, PODC 2021, Virtual, Online, Italy, 26/07/21. https://doi.org/10.1145/3465084.3467910

Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility. / Kirkpatrick, David; Kostitsyna, Irina; Navarra, Alfredo et al.
PODC 2021 - Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing. Association for Computing Machinery, Inc, 2021. p. 9-19.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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AB - We consider distributed computations, by identical autonomous mobile entities, that solve the Point Convergence problem: given an arbitrary initial configuration of entities, disposed in the Euclidean plane, move in such a way that, for all ϵ>0, a configuration is eventually reached and maintained in which the separation between all entities is at most ϵ. The problem has been previously studied in a variety of settings. 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 that solves Point Convergence, provided the degree of asynchrony is bounded by some arbitrarily large but fixed constant. This provides a strong positive answer to a decade old open question posed by Katreniak. We also prove that, in an otherwise comparable setting, Point Convergence is impossible with unbounded asynchrony. This serves to distinguish the power of bounded and unbounded asynchrony in the control of autonomous mobile entities, settling at the same time a long-standing question whether in the Euclidean plane synchronous entities are more powerful than asynchronous ones.

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Separating Bounded and Unbounded Asynchrony for Autonomous Robots: Point Convergence with Limited Visibility

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Keywords

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