Title :
Modeling and analysis of timed Petri nets using heaps of pieces
Author :
Gaubert, Stéphane ; Mairesse, Jean
Author_Institution :
Inst. Nat. de Recherche en Inf. et Autom., Le Chesnay, France
fDate :
4/1/1999 12:00:00 AM
Abstract :
The authors show that safe timed Petri nets can be represented by special automata over the (max, +) semiring, which compute the height of heaps of pieces. This extends to the timed case the classical representation a la Mazurkiewicz of the behavior of safe Petri nets by trace monoids and trace languages. For a subclass including all safe free-choice Petri nets, we obtain reduced heap realizations using structural properties of the net (covering by safe state machine components). The authors illustrate the heap-based modeling by the typical case of safe jobshops. For a periodic schedule, the authors obtain a heap-based throughput formula, which is simpler to compute than its traditional timed event graph version, particularly if one is interested in the successive evaluation of a large number of possible schedules
Keywords :
Petri nets; automata theory; formal languages; group theory; (max, +) semiring; heap-based modeling; heap-based throughput formula; heaps of pieces; periodic schedule; reduced heap realizations; safe free-choice Petri nets; safe jobshops; safe state machine; safe timed Petri nets; structural properties; trace languages; trace monoids; Automata; Discrete event systems; Linear systems; Machine components; Petri nets; Processor scheduling; Solids; Throughput;
Journal_Title :
Automatic Control, IEEE Transactions on
