Multi-Agent Planning by Plan Set Intersection
Type of document
disertační práceAuthor
Tožička, Jan
Supervisor
Pěchouček, Michal
Komenda, Antonín
Field of study
Informatika a výpočetní technikaStudy program
Elektrotechnika a informatikaInstitutions assigning rank
České vysoké učení technické v Praze. Fakulta elektrotechnická. Katedra počítačůMetadata
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Coordination of a team of cooperative agents and their activities towards fulfillment
of goals is described by multi-agent planning. For deterministic environments,
where agents are not willing to share all their knowledge, the MA-STRIPS model
provides minimal extension from classical planning. MA-STRIPS exactly prescribes
what information can be freely communicated between the agents and what information
has to be kept private such that the shared or individual goals can be still
achieved.
This thesis proposes a novel multi-agent planning approach which distributively
intersects local plans of the agents towards a global solution of the multi-agent planning
problem. This core principle builds on local compilation to a classical planning
problem and compact representation of the local plans in the form of Finite State Machines.
The efficiency of the resulting planner is further boosted up by distributed
delete-relaxation heuristic, an approximative local plan analysis, and reduction of
agents’ internal problems.
The planning approach is analysed theoretically, in particular we prove its completeness
and soundness. Experimental evaluation shows its applicability in a full
privacy setting where only public information can be communicated and in less restricted
privacy settings. At a recent international competition of distributed multiagent
planners, the proposed planner showed top performance when compared
with other existing state-of-the-art multi-agent planners.
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