To determine the voice load that can be supported by a packet-based node, we study the MMBP/D/1 model. Using this load the number of phones that can be supported by that node is calculated. We investigate the case of homogeneous and heterogeneous traffic and phones with and without silence suppression, and study the impact of the link rate, the activity grade and the codec bit rate. We also compare the number of phones that can be supported by the node according to the MMBP/D/1 model with the number of phones that can be supported according to the M/D/1 model.
%0 Book Section
%1 DeVleeschauwer2001433
%A Vleeschauwer, D De
%A Moffaert, A. Van
%A Büchli, M.J.C.
%A Janssen, J.
%A Petit, G.H.
%A Steyaert, B.
%A Bruneel, H.
%B Teletraffic Engineering in the Internet EraProceedings of the International Teletraffic Congress - ITC-I7
%D 2001
%E Jorge Moreira de Souza, Nelson L.S. da Fonseca
%E de Souza e Silva, Edmundo A.
%I Elsevier
%K itc itc17
%P 433 - 444
%R http://dx.doi.org/10.1016/S1388-3437(01)80141-4
%T Determining the tolerable load generated by a set of packet-based phones on a multiplexing node
%V 4
%X To determine the voice load that can be supported by a packet-based node, we study the MMBP/D/1 model. Using this load the number of phones that can be supported by that node is calculated. We investigate the case of homogeneous and heterogeneous traffic and phones with and without silence suppression, and study the impact of the link rate, the activity grade and the codec bit rate. We also compare the number of phones that can be supported by the node according to the MMBP/D/1 model with the number of phones that can be supported according to the M/D/1 model.
@incollection{DeVleeschauwer2001433,
abstract = {To determine the voice load that can be supported by a packet-based node, we study the MMBP/D/1 model. Using this load the number of phones that can be supported by that node is calculated. We investigate the case of homogeneous and heterogeneous traffic and phones with and without silence suppression, and study the impact of the link rate, the activity grade and the codec bit rate. We also compare the number of phones that can be supported by the node according to the MMBP/D/1 model with the number of phones that can be supported according to the M/D/1 model. },
added-at = {2016-07-12T14:53:52.000+0200},
author = {Vleeschauwer, D De and Moffaert, A. Van and Büchli, M.J.C. and Janssen, J. and Petit, G.H. and Steyaert, B. and Bruneel, H.},
biburl = {https://www.bibsonomy.org/bibtex/22df1be9ef1938083438cda8870dcdec2/itc},
booktitle = {Teletraffic Engineering in the Internet EraProceedings of the International Teletraffic Congress - ITC-I7},
doi = {http://dx.doi.org/10.1016/S1388-3437(01)80141-4},
editor = {Jorge Moreira de Souza, Nelson L.S. da Fonseca and de Souza e Silva, Edmundo A.},
interhash = {a081c6d187e7d214b3cc278e16dcf6a0},
intrahash = {2df1be9ef1938083438cda8870dcdec2},
issn = {1388-3437},
keywords = {itc itc17},
pages = {433 - 444},
publisher = {Elsevier},
series = {Teletraffic Science and Engineering },
timestamp = {2020-04-30T18:17:29.000+0200},
title = {Determining the tolerable load generated by a set of packet-based phones on a multiplexing node },
volume = 4,
year = 2001
}