Agent swarms: Cooperation and coordination under stringent communications constraint

Here we consider the communications tactics appropriate for a group of agents that need to "swarm" together in a challenging communications environment. Swarms are increasingly important in a number of applications, including land, air, sea and space exploration, and their constituent agen...

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Bibliographic Details
Published in:PloS one 2024-12, Vol.19 (12), p.e0311513
Main Authors: Kinsler, Paul, Holman, Sean, Elliott, Andrew, Mitchell, Cathryn N, Wilson, R Eddie
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Biology and Life Sciences
Communication
Communications
Computer and Information Sciences
Constraints
Cooperation
Cooperative Behavior
Discovery and exploration
Drone aircraft
Drones
Efficiency
Engineering and Technology
Group theory
Humans
Information management
Information sharing
Models, Theoretical
Multiagent systems
Network topologies
Outer space
Performance measurement
Physical Sciences
Probability
Research and Analysis Methods
Social Sciences
Space exploration
Tactics
Unmanned aerial vehicles
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Summary:Here we consider the communications tactics appropriate for a group of agents that need to "swarm" together in a challenging communications environment. Swarms are increasingly important in a number of applications, including land, air, sea and space exploration, and their constituent agents could be satellites, drones, or other autonomous vehicles. A particularly difficult problem is to autonomously connect a swarm of agents together in a situation where stringent communication constraints are present, whether due to a need for stealth, restricted on-board power, external requirements to avoid certain broadcast directions, or equipment & hardware limitations. Here we present a novel, discrete, geometry-free model applicable to multi-agent swarm communications where a group of agents need to connect together and where the constraints on the communications dominate the algorithmic outcomes. No global knowledge of the agent locations is held and hence our framework proposes agent-centric performance metrics. We demonstrate our model using a set of candidate connectivity tactics and we show how simulated outcome distributions, risks and connectivity depend on the ratio of information gain to information loss. We also show that checking for excessive round-trip-times can be an effective minimal-information filter for determining which agents to no longer target with messages. The framework and algorithms that are presented here have wider application in testing efficient communication tactics across agent swarms in designated scenarios and testing the connectivity outcomes for future systems and missions.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0311513