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Bibliographic Details
Main Authors: Xin, Pujie, Xie, Zhanteng, Dames, Philip
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.01771
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author Xin, Pujie
Xie, Zhanteng
Dames, Philip
author_facet Xin, Pujie
Xie, Zhanteng
Dames, Philip
contents The increased deployment of multi-robot systems (MRS) in various fields has led to the need for analysis of system-level performance. However, creating consistent metrics for MRS is challenging due to the wide range of system and environmental factors, such as team size and environment size. This paper presents a new analytical framework for MRS based on dimensionless variable analysis, a mathematical technique typically used to simplify complex physical systems. This approach effectively condenses the complex parameters influencing MRS performance into a manageable set of dimensionless variables. We form dimensionless variables which encapsulate key parameters of the robot team and task. Then we use these dimensionless variables to fit a parametric model of team performance. Our model successfully identifies critical performance determinants and their interdependencies, providing insight for MRS design and optimization. The application of dimensionless variable analysis to MRS offers a promising method for MRS analysis that effectively reduces complexity, enhances comprehension of system behaviors, and informs the design and management of future MRS deployments.
format Preprint
id arxiv_https___arxiv_org_abs_2405_01771
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards Predicting Collective Performance in Multi-Robot Teams
Xin, Pujie
Xie, Zhanteng
Dames, Philip
Robotics
The increased deployment of multi-robot systems (MRS) in various fields has led to the need for analysis of system-level performance. However, creating consistent metrics for MRS is challenging due to the wide range of system and environmental factors, such as team size and environment size. This paper presents a new analytical framework for MRS based on dimensionless variable analysis, a mathematical technique typically used to simplify complex physical systems. This approach effectively condenses the complex parameters influencing MRS performance into a manageable set of dimensionless variables. We form dimensionless variables which encapsulate key parameters of the robot team and task. Then we use these dimensionless variables to fit a parametric model of team performance. Our model successfully identifies critical performance determinants and their interdependencies, providing insight for MRS design and optimization. The application of dimensionless variable analysis to MRS offers a promising method for MRS analysis that effectively reduces complexity, enhances comprehension of system behaviors, and informs the design and management of future MRS deployments.
title Towards Predicting Collective Performance in Multi-Robot Teams
topic Robotics
url https://arxiv.org/abs/2405.01771