Title :
A formation behavior for large-scale micro-robot force deployment
Author :
Dudenhoeffer, Donald D. ; Jones, Michael P.
Author_Institution :
Human-Syst. Simulation Lab., Idaho Nat. Eng. & Environ. Lab., ID, USA
Abstract :
Micro-robots will soon be available for deployment by the thousands. Consequently, controlling and coordinating a force this large to accomplish a prescribed task is of great interest. This paper describes a flexible architecture for modeling thousands of autonomous agents simultaneously. The agents´ behavior is based on a subsumption architecture in which individual behaviors are prioritized with respect to all others. The primary behavior explored in this work is a group formation behavior based on social potential fields. This paper extends the social potential field model by introducing a neutral zone within which other behaviors may exhibit themselves. Previous work with social potential fields has been restricted to models of “perfect” autonomous agents. The paper evaluates the effect of social potential fields in the presence of agent death (failure) and imperfect sensory input
Keywords :
artificial intelligence; digital simulation; mobile robots; autonomous agents; formation behavior; group formation behavior; large-scale micro-robot force deployment; social potential field model; Autonomous agents; Force control; Force sensors; Large-scale systems; Remote sensing; Robot kinematics; Robot sensing systems; Sampling methods; Sensor phenomena and characterization; Surveillance;
Conference_Titel :
Simulation Conference, 2000. Proceedings. Winter
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-6579-8
DOI :
10.1109/WSC.2000.899900
