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2012 ACM/IEEE/SCS 26th Workshop on Principles of Advanced and Distributed Simulation (2008)
June 3, 2008 to June 6, 2008
ISSN: 1087-4097
ISBN: 978-0-7695-3159-5
pp: 72-79
ABSTRACT
We present our preliminary work that develops a new approach to hybrid packet/analytic network simulations for improved network simulation fidelity, scale, and simulation efficiency. Much work in the literature addresses this topic, including [10] [11] [8] [12] [13] and others. Current approaches rely upon models, which we refer to in this paper as Deterministic Fluid Models [9] [12], to address the analytic modeling aspects of these hybrid simulations. Instead we draw upon an extensive literature on stochastic models of queues and (eventually) networks of queues to implement a hybrid stochastic model/packet network simulation. We will refer to our approach as Stochastic Fluid Models throughout this paper. We outline our approach, present test cases, and present simulation results comparing the measured queue metrics from our approach for hybrid simulation to those of a deterministic fluid model hybrid simulation and a full packet–level simulation. We also discuss plans for future areas of research on this approach.
INDEX TERMS
Hybrid Simulation Models, Event Driven Simulations, Network Models, Stochastic Queues and Diffusion Equations
CITATION
Robert G. Cole, George Riley, Derya Cansever, William Yurcik, "Stochastic Process Models for Packet/Analytic-Based Network Simulations", 2012 ACM/IEEE/SCS 26th Workshop on Principles of Advanced and Distributed Simulation, vol. 00, no. , pp. 72-79, 2008, doi:10.1109/PADS.2008.21
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