Artificial intelligence: a modern approach
Artificial intelligence: a modern approach
Theoretical aspects of fuzzy control
Theoretical aspects of fuzzy control
Remote Agent: to boldly go where no AI system has gone before
Artificial Intelligence - Special issue: artificial intelligence 40 years later
Multiagent systems: a modern approach to distributed artificial intelligence
Multiagent systems: a modern approach to distributed artificial intelligence
Linear Optimal Control Systems
Linear Optimal Control Systems
Achieving Artificial Intelligence through Building Robots
Achieving Artificial Intelligence through Building Robots
A reactive coordination scheme for a many-robot system
IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics
Proceedings of the fourth international joint conference on Autonomous agents and multiagent systems
Collaboration among a satellite swarm
Proceedings of the 6th international joint conference on Autonomous agents and multiagent systems
An Incremental Adaptive Organization for a Satellite Constellation
Organized Adaption in Multi-Agent Systems
The evaluation of intelligent agent performance - An example of B2C e-commerce negotiation
Computer Standards & Interfaces
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Multiple, highly autonomous, satellite systems are envisioned in the near future because they are capable of higher performance, lower cost, better fault tolerance, reconfigurability and upgradability. This paper presents an architecture and multi-agent design and simulation environment that will enable agent-based multi-satellite systems to fulfill their complex mission objectives, termed ObjectAgentTM. Its application is shown for a distributed aperture radar mission, although its applicability spans many types of missions. Required spacecraft functions, software agents, and multi-agent organisations are described for the radar mission, as well as their implementation. Agent-based simulations of mission case studies show the autonomous operation of the multi-agent architecture, which can then be used to build, evaluate and compare autonomous software architectures for multiple satellite systems.