Title :
Factored Planning: From Automata to Petri Nets
Author :
Jezequel, Loig ; Fabre, Eric ; Khomenko, Victor
Author_Institution :
ENS Cachan Bretagne, IRISA, Rennes, France
Abstract :
Factored planning mitigates the state space explosion problem by avoiding the construction of the state space of the whole system and instead working with the system´s components. Traditionally, finite automata have been used to represent the components, with the overall system being represented as their product. In this paper we change the representation of components to safe Petri nets. This allows one to use cheap structural operations like transition contractions to reduce the size of the Petri net, before its state space is generated, which often leads to substantial savings compared with automata. The proposed approach has been implemented and proven efficient on several factored planning benchmarks.
Keywords :
Petri nets; finite automata; planning; Petri nets; components representation; factored planning; finite automata; state space construction; state space explosion problem; structural operations; system components; transition contractions; Automata; Benchmark testing; Concurrent computing; Message passing; Nickel; Petri nets; Planning; Distributed Planning; Distributed model checking; Factored planning; Networks of automata; Petri nets;
Conference_Titel :
Application of Concurrency to System Design (ACSD), 2013 13th International Conference on
Conference_Location :
Barcelona
DOI :
10.1109/ACSD.2013.16
