@Article{CésarCarv:2015:QuMoDi,
author = "C{\'e}sar, Cec{\'{\i}}lia A. C. and Carvalho, Solon
Ven{\^a}ncio de",
affiliation = "{Instituto Tecnol{\'o}gico de Aeron{\'a}utica (ITA)} and
{Instituto Nacional de Pesquisas Espaciais (INPE)}",
title = "A queuing model for distributed scheduling in IEEE 802.16 wireless
mesh networks",
journal = "International Journal of Communication Systems",
year = "2015",
volume = "28",
number = "5",
pages = "910--927",
month = "Mar.",
keywords = "Distributed coordinated Scheduling, IEEE 802.16, Performance
Analysis, Protocol Analysis, Queuing Theory, Wireless Mesh
Networks.",
abstract = "The IEEE 802.16 standard for wireless broadband networks includes
the mesh mode in its specifications, where network nodes interact
to deliver packets from a client to a remote destination through
intermediate nodes. This paper presents a study of the capacity of
IEEE 802.16 wireless networks in mesh mode by using M/G/1/L
queuing model that represents each network node by incorporating
the features of the standard in order to calculate the average
delay and throughput in the node. An iterative method integrates
the calculation results at each node, obtaining the end-to-end
delay from any node of the mesh to the Base Station. Because of
multiple hops, a node far from the Base Station may have its flows
damaged. To minimize this problem, we propose a criterion for a
fair distribution of resources. We show the numerical results of
the model which indicate a good fit when compared with simulation
results.",
doi = "10.1002/dac.2715",
url = "http://dx.doi.org/10.1002/dac.2715",
issn = "1074-5351",
language = "en",
targetfile = "cesar_queuing.pdf",
urlaccessdate = "27 abr. 2024"
}