Concurrent estimation

The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.

In discrete event simulation concurrent estimation is a technique used to estimate the effect of alternate parameter settings on a discrete event system. For example from observation of a (computer simulated) telecommunications system with a specified buffer size $B_{0}$ , one estimates what the performance would be if the buffer size had been set to the alternate values $B_{1},\ldots ,B_{n}$ . Effectively the technique generates (during a single simulation run) $n$ alternative histories for the system state variables, which have the same probability of occurring as the main simulated state path; this results in a computational saving as compared to running $n$ additional simulations, one for each alternative parameter value.

The technique was developed by Cassandras,^[1] Strickland and Panayiotou.^[2]

References

^ vita.bu.edu Archived 2001-11-27 at the Library of Congress Web Archives
^ vita.bu.edu Archived 2008-08-05 at the Wayback Machine

Cassandras, C.G.; Lafortune, S. (2008). Introduction to Discrete Event Systems. Springer. ISBN 978-0-387-33332-8.

[1] vita.bu.edu Archived 2001-11-27 at the Library of Congress Web Archives

[2] vita.bu.edu Archived 2008-08-05 at the Wayback Machine

[1]

[2]