Title :
Cycle time of stochastic event graphs: evaluation and marking optimization
Author :
Proth, Jean-marie ; Xie, Xiao-Lan
Author_Institution :
INRIA, Metz, France
fDate :
7/1/1994 12:00:00 AM
Abstract :
Addresses the performance evaluation and optimization of a strongly connected event graph with random firing times. The authors proposed an upper bound and a lower bound for the average cycle time of event graphs knowing the initial marking. The authors then prove that, under some weak conditions on the firing time distributions, it is possible to reach, on average, a cycle time smaller than any given value C* with a finite marking, assuming that C* is greater than the greatest firing time. Finally, the authors propose an heuristic algorithm to reach such an average cycle time while minimizing a p-invariant criterion
Keywords :
Petri nets; stochastic processes; average cycle time; firing time distributions; heuristic algorithm; lower bound; marking optimization; p-invariant criterion; performance evaluation; random firing times; stochastic event graphs; strongly connected event graph; upper bound; weak conditions; Circuits; Heuristic algorithms; Manufacturing systems; Production; Productivity; Stochastic processes; Terminology; Upper bound; Virtual manufacturing;
Journal_Title :
Automatic Control, IEEE Transactions on
