Author :
Benveniste, Albert ; Fabre, Eric ; Haar, Stefan
Abstract :
For distributed systems, i.e., large complex networked systems, there is a drastic difference between a local view and knowledge of the system, and its global view. Distributed systems have local state and time, but do not possess global state and time in the usual sense. In this paper, motivated by the monitoring of distributed systems and in particular of telecommunications networks, we develop a generalization of Markov chains and hidden Markov models for distributed and concurrent systems. By a concurrent system, we mean a system in which components may evolve independently, with sparse synchronizations. We follow a so-called true concurrency approach, in which neither global state nor global time are available. Instead, we use only local states in combination with a partial order model of time. Our basic mathematical tool is that of Petri net unfoldings.
Keywords :
Markov processes; Petri nets; discrete event systems; hidden Markov models; interconnected systems; performance evaluation; probability; telecommunication network routing; Markov chain generalization; Markov nets; Petri net unfoldings; concurrent systems; distributed discrete event systems; distributed system monitoring; distributed systems; global view; hidden Markov models; large complex networked systems; local view; partial order model; probabilistic models; sparse synchronizations; telecommunications networks; true concurrency approach; Automata; Computer science; Computerized monitoring; Concurrent computing; Discrete event systems; Helium; Hidden Markov models; Interleaved codes; Petri nets; Stochastic systems;
