Intention is choice with commitment
Artificial Intelligence
Controlling cooperative problem solving in industrial multi-agent systems using joint intentions
Artificial Intelligence
Direct execution of team specifications in STAPLE
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
The Adaptive Agent Architecture: Achieving Fault-Tolerance Using Persistent Broker Teams
ICMAS '00 Proceedings of the Fourth International Conference on MultiAgent Systems (ICMAS-2000)
Agent architectures for flexible, practical teamwork
AAAI'97/IAAI'97 Proceedings of the fourteenth national conference on artificial intelligence and ninth conference on Innovative applications of artificial intelligence
Implementing commitment-based interactions
Proceedings of the 6th international joint conference on Autonomous agents and multiagent systems
Hermes: designing goal-oriented agent interactions
AOSE'05 Proceedings of the 6th international conference on Agent-Oriented Software Engineering
Hermes: implementing goal-oriented agent interactions
ProMAS'05 Proceedings of the Third international conference on Programming Multi-Agent Systems
A comparison of two agent interaction design approaches
Multiagent and Grid Systems
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Joint intention theory has been used for rule based creation of teams and to provide a formal semantics for communicative acts but there were no agent programming languages linked to this theory. We proposed a declarative agent programming language called STAPLE whose logical semantics is given by the joint intention theory. This paper illustrates the STAPLE support for communication and teamwork in a unified framework.