Title :
Approximation models of wireless cellular networks using moment matching
Author :
Mitchell, Ken ; Sohraby, Khosrow ; Van de Liefvoort, Appie ; Place, Jerry
Author_Institution :
Sch. of Interdisciplinary Comput. & Eng., Missouri Univ., Kansas City, MO, USA
fDate :
11/1/2001 12:00:00 AM
Abstract :
In this paper we present an analytical model for micro- and pico-cell wireless networks for any arbitrary topology in a high mobility feedforward environment. We introduce an approximation technique which uses a single-cell decomposition analysis which incorporates moment matching of handoff processes into the cell. The approximation technique can provide close approximations for non-Poisson arrival traffic and it is easily parallelized. Performance measures such as new calls blocked, handoff calls lost, and forced termination are derived for any general independent call arrival distribution in a heterogeneous traffic environment. We produce some numerical examples for some simple topologies with varying mobility for several call arrival distributions and compare our results to those from simulation studies
Keywords :
approximation theory; microcellular radio; network topology; picocellular radio; telecommunication traffic; approximation technique; blocked new calls; call arrival distribution; call arrival distributions; forced termination; handoff processes; heterogeneous traffic environment; high mobility feedforward environment; linear algebra queueing theory; lost handoff calls; micro-cell wireless networks; moment matching; network topology; nonPoisson arrival traffic; performance measures; pico-cell wireless networks; single-cell decomposition analysis; wireless cellular networks; Analytical models; Cities and towns; Force measurement; Land mobile radio cellular systems; Loss measurement; Network topology; Quality of service; Telecommunication traffic; Traffic control; Wireless networks;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
