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FAABS
2004
Springer
2004
Springer
Agent-Based Chemical Plume Tracing Using Fluid Dynamics
Abstract. This paper presents a rigorous evaluation of a novel, distributed chemical plume tracing algorithm. The algorithm is a combination of the best aspects of the two most popular predecessors for this task. Furthermore, it is based on solid, formal principles from the field of fluid mechanics. The algorithm is applied by a network of mobile sensing agents (e.g., robots or micro-air vehicles) that sense the ambient fluid velocity and chemical concentration, and calculate derivatives. The algorithm drives the robotic network to the source of the toxic plume, where measures can be taken to disable the source emitter. This work is part of a much larger effort in research and development of a physics-based approach to developing networks of mobile sensing agents for monitoring, tracking, reporting and responding to hazardous conditions.
Real-time TrafficAmbient fluid Velocity | Artificial Intelligence | FAABS 2004 | Mobile Sensing Agents | Plume Tracing Algorithm |
| Added | 01 Jul 2010 |
| Updated | 01 Jul 2010 |
| Type | Conference |
| Year | 2004 |
| Where | FAABS |
| Authors | Dimitri Zarzhitsky, Diana F. Spears, David R. Thayer, William M. Spears |
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