SWARM
Distributed robotics approach to chemical plume tracing
Dimitri Zarzhitsky, Diana F. Spears, William M. Spears
- Year
- 2005
- Citations
- 108
Abstract
This paper presents an application of a physics-based framework for distributed control of autonomous vehicles. The autonomous swarm uses local information to self-organize into dynamic sensing and computation grids during localization of the source of a toxic plume. Using physics of fluid flow, we develop a new plume-tracing algorithm, and then use computational fluid dynamics simulations to show that the new approach outperforms the leading biomimetic competitors for this task.
Keywords
TracingPlumeComputationRoboticsComputer scienceSwarm roboticsArtificial intelligenceSwarm behaviourTask (project management)Fluid dynamics
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