DIMACS TR: 98-20
ATM Network Design: Traffic Models and Optimization-Based Heuristics
Authors: Iraj Saniee and Daniel Bienstock
ABSTRACT
We consider the design and capacity expansion of ATM networks as an
optimization problem in which flows representing end-to-end variable bit-rate
services of different classes are to be multiplexed and routed over ATM
trunks and switches so as to minimize the costs of additional switches and
transport pipes while meeting service quality and survivability constraints.
After discussing the underlying fractional Brownian motion model for aggregate
flows, a non-linear multicommodity optimization problem is formulated and
heuristics for its approximate solutions are described. Finally, computational
results are produced that demonstrate realistic size problems can be solved
with the proposed method to shed light on key economic characteristics of ATM
traffic, such as safe levels of statistical multiplexing, as well as robust
and efficient design alternatives.
Paper Available at:
ftp://dimacs.rutgers.edu/pub/dimacs/TechnicalReports/TechReports/1998/98-20.ps.gz
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