English

Swarming collapse under limited information flow between individuals

Adaptation and Self-Organizing Systems 2017-05-23 v4 Biological Physics

Abstract

The emergence of collective decision in swarms and their coordinated response to complex environments underscore the central role played by social transmission of information. Here, the different possible origins of information flow bottlenecks are identified. Using a combination of network-, control- and information-theoretic elements applied to a group of interacting self-propelled particles, the effect of varying information capacity of the signaling channel on dynamic collective behaviors is revealed. We find a sufficient condition on the information data rate that guarantees the effectiveness of swarming while also highlighting the profound connection with the topology of the underlying interaction network. We also show that when decreasing the data rate, the swarming behavior invariably vanishes following a second-order phase transition irrespective of the intrinsic noise level. The variations along the transition line are found to be in good agreement with information-theoretic predictions.

Keywords

Cite

@article{arxiv.1409.7207,
  title  = {Swarming collapse under limited information flow between individuals},
  author = {Mohammad Komareji and Yilun Shang and Roland Bouffanais},
  journal= {arXiv preprint arXiv:1409.7207},
  year   = {2017}
}
R2 v1 2026-06-22T06:05:31.794Z