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<title>Modified reactive control framework for cooperative mobile robots</title>

Jesús Salido, John M. Dolan, J.B. Hampshire, Pradeep K. Khosla

Year
1997
Citations
9

Abstract

An important class of robotic applications potentially involves multiple, cooperating robots: security or military surveillance, rescue, mining, etc. One of the main challenges in this area is effective cooperative control: how does one determine and orchestrate individual robot behaviors which result in a desired group behavior? Cognitive (planning) approaches allow for explicit coordination between robots, but suffer from high computational demands and a need for a priori, detailed world models. Purely reactive approaches such as that of Brooks are efficient, but lack a mechanism for global control and learning. Neither approach by itself provides a formalism capable of a sufficiently rapid and rich range of cooperative behaviors. Although we accept the usefulness of the reactive paradigm in building up complex behaviors from simple ones, we seek to extend and modify it in several ways. First, rather than restricting primitive behaviors to fixed input-output relationships, we include...

Keywords

RobotComputer scienceMobile robotCognitive architectureBehavior-based roboticsHuman–computer interactionArtificial intelligenceA priori and a posterioriArchitectureDistributed computing

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