The Model Checking Integrated Planning System (MIPS) is a temporal least commit-ment heuristic search planner based on a flexible object-oriented workbench architecture. Its design clearly separates explicit and symbolic directed exploration algorithms from the set of on-line and off-line computed estimates and associated data structures. MIPS has shown distinguished performance in the last two international planning com-petitions. In the last event the description language was extended from pure propositional planning to include numerical state variables, action durations, and plan quality objective functions. Plans were no longer sequences of actions but time-stamped schedules. As a participant of the fully automated track of the competit...
To foster effective use of artificial intelligence planning and scheduling (P&S) systems in the real...
In this paper we propose a new approach to planning based on a `high level action language`, called ...
textEffective plan specification, solution extraction and plan execution are critical to the abilit...
The Model Checking Integrated Planning System (MIPS) is a temporal least commit-ment heuristic searc...
MIPS, model checking has eventually approached classical AI planning. It was the first planning syst...
Temporal planning often involves numeric effects that are directly proportional to their action’s du...
The Model Based Planner (MBP) is a system for planning in non-deterministic domains. It can generate...
Planning via Model Checking is nowadays a well-known technique. Techniques based on model checking h...
Planning domain descriptions contain many structural features, not made explicit by the domain desig...
To foster effective use of artificial intelligence planning and scheduling (P&S) systems in the real...
Formal verification of hardware and software systems in-volves proving or disproving the correctness...
In this paper, we show how a planner can use a model-checking verifier to guide state space search. ...
The Model Based Planner (MBP) is a system for planning in non-deterministic domains. It can generate...
Sapa is a domain-independent heuristic forward chaining planner that can handle durative actions, me...
Comunicació presentada a: 21st International Conference on Automated Planning and Scheduling (ICAPS)...
To foster effective use of artificial intelligence planning and scheduling (P&S) systems in the real...
In this paper we propose a new approach to planning based on a `high level action language`, called ...
textEffective plan specification, solution extraction and plan execution are critical to the abilit...
The Model Checking Integrated Planning System (MIPS) is a temporal least commit-ment heuristic searc...
MIPS, model checking has eventually approached classical AI planning. It was the first planning syst...
Temporal planning often involves numeric effects that are directly proportional to their action’s du...
The Model Based Planner (MBP) is a system for planning in non-deterministic domains. It can generate...
Planning via Model Checking is nowadays a well-known technique. Techniques based on model checking h...
Planning domain descriptions contain many structural features, not made explicit by the domain desig...
To foster effective use of artificial intelligence planning and scheduling (P&S) systems in the real...
Formal verification of hardware and software systems in-volves proving or disproving the correctness...
In this paper, we show how a planner can use a model-checking verifier to guide state space search. ...
The Model Based Planner (MBP) is a system for planning in non-deterministic domains. It can generate...
Sapa is a domain-independent heuristic forward chaining planner that can handle durative actions, me...
Comunicació presentada a: 21st International Conference on Automated Planning and Scheduling (ICAPS)...
To foster effective use of artificial intelligence planning and scheduling (P&S) systems in the real...
In this paper we propose a new approach to planning based on a `high level action language`, called ...
textEffective plan specification, solution extraction and plan execution are critical to the abilit...