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A logic-based model of intentions for multi-agent subcontracting
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A logic-based model of intention formation and action for multi-agent subcontracting
Artificial Intelligence
Modeling mental states in the analysis of multiagent systems requirements
AOSE'06 Proceedings of the 7th international conference on Agent-oriented software engineering VII
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Modeling mental states in agent-oriented requirements engineering
CAiSE'06 Proceedings of the 18th international conference on Advanced Information Systems Engineering
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This paper addresses the problem of ensuring that agents' plans are epistemically feasible in multiagent systems specifications. We propose some solutions within the Cognitive Agents Specification Language (CASL). We define a subjective execution construct Subj that causes the plan to be executed in terms of the agent's knowledge state, rather than in terms of the world state. The definition assumes that the agent does not do planning or lookahead, and chooses arbitrarily among the actions allowed by the plan. We also define another deliberative execution operator Delib for smarter agents that do planning. We show how these notions can be used to express whether a process is epistemically feasible for its agent(s) in several types of situations. More generally, the paper shows how a formalization of epistemic feasibility can be integrated with a transition-system semantics for an agent programming/specification language.