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Main Authors: Zijlstra, Gjosse, Aplin, Karen L., Hunt, Edmund R.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.00586
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author Zijlstra, Gjosse
Aplin, Karen L.
Hunt, Edmund R.
author_facet Zijlstra, Gjosse
Aplin, Karen L.
Hunt, Edmund R.
contents Exploration of extreme or remote environments such as Mars is often recognized as an opportunity for multi-robot systems. However, this poses challenges for maintaining robust inter-robot communication without preexisting infrastructure. It may be that robots can only share information when they are physically in close proximity with each other. At the same time, atmospheric phenomena such as dust devils are poorly understood and characterization of their electrostatic properties is of scientific interest. We perform a comparative analysis of two multi-robot communication strategies: a distributed approach, with pairwise intermittent rendezvous, and a centralized, fixed base station approach. We also introduce and evaluate the effectiveness of an algorithm designed to predict the location and strength of electrostatic anomalies, assuming robot proximity. Using an agent-based simulation, we assess the performance of these strategies in a 2D grid cell representation of a Martian environment. Results indicate that a decentralized rendezvous system consistently outperforms a fixed base station system in terms of exploration speed and in reducing the risk of data loss. We also find that inter-robot data sharing improves performance when trying to predict the location and strength of an electrostatic anomaly. These findings indicate the importance of appropriate communication strategies for efficient multi-robot science missions.
format Preprint
id arxiv_https___arxiv_org_abs_2405_00586
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multi-Robot Strategies for Communication-Constrained Exploration and Electrostatic Anomaly Characterization
Zijlstra, Gjosse
Aplin, Karen L.
Hunt, Edmund R.
Robotics
Exploration of extreme or remote environments such as Mars is often recognized as an opportunity for multi-robot systems. However, this poses challenges for maintaining robust inter-robot communication without preexisting infrastructure. It may be that robots can only share information when they are physically in close proximity with each other. At the same time, atmospheric phenomena such as dust devils are poorly understood and characterization of their electrostatic properties is of scientific interest. We perform a comparative analysis of two multi-robot communication strategies: a distributed approach, with pairwise intermittent rendezvous, and a centralized, fixed base station approach. We also introduce and evaluate the effectiveness of an algorithm designed to predict the location and strength of electrostatic anomalies, assuming robot proximity. Using an agent-based simulation, we assess the performance of these strategies in a 2D grid cell representation of a Martian environment. Results indicate that a decentralized rendezvous system consistently outperforms a fixed base station system in terms of exploration speed and in reducing the risk of data loss. We also find that inter-robot data sharing improves performance when trying to predict the location and strength of an electrostatic anomaly. These findings indicate the importance of appropriate communication strategies for efficient multi-robot science missions.
title Multi-Robot Strategies for Communication-Constrained Exploration and Electrostatic Anomaly Characterization
topic Robotics
url https://arxiv.org/abs/2405.00586