Cell capacity of LMDS systems in typical traffic scenarios

Broadband access and multimedia technologies are expected to be primary drivers for the telecommunications market of the next few years. The increasing bandwidth needs, together with the plethora of different services and heterogeneous traffic flows, requires accurate methodologies for resource dime...

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Published in:IEEE communications magazine 2005-04, Vol.43 (4), p.122-129
Main Authors: Iacovoni, G., Pierotti, D., Parisi, D., Isopi, M.
Format: Magazinearticle
Language:English
Subjects:
Asynchronous transfer mode
Bandwidth
Broadband
Digital video broadcasting
Downlink
Drivers
Frequency
Mathematical models
Multimedia
Multiprotocol label switching
Quality of service
Satellite broadcasting
Simulation
Studies
Telecommunication traffic
Traffic control
Traffic engineering
Traffic flow
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cited_by cdi_FETCH-LOGICAL-c355t-28b75672bc7db2b1735a43bd9fbf007c893136dcacb92614e9777b937accaf943
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container_title IEEE communications magazine
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creator Iacovoni, G.
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Isopi, M.
description Broadband access and multimedia technologies are expected to be primary drivers for the telecommunications market of the next few years. The increasing bandwidth needs, together with the plethora of different services and heterogeneous traffic flows, requires accurate methodologies for resource dimensioning, especially in the field of wireless technologies where efficient bandwidth usage is crucial. New methodologies need to be based on up-to-date traffic source modeling and usage scenarios. Therefore, in this article, we propose a survey of statistical characterization of single traffic sources, QoS requirements and different traffic demands. When possible, we consider the aggregate traffic resulting from a large number of heavy tailed ON/OFF sources, relying on the theory of long-range dependent flows. This method is particularly useful when time- and resource-consuming simulations are needed in order to dimension the system resources, which is always the case in the multimedia scenarios of future networks. We use such a traffic framework to estimate by simulations the capacity of an LMDS system.
doi_str_mv 10.1109/MCOM.2005.1421915
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source IEEE Electronic Library (IEL) Journals
subjects Asynchronous transfer mode
Bandwidth
Broadband
Digital video broadcasting
Downlink
Drivers
Frequency
Mathematical models
Multimedia
Multiprotocol label switching
Quality of service
Satellite broadcasting
Simulation
Studies
Telecommunication traffic
Traffic control
Traffic engineering
Traffic flow
title Cell capacity of LMDS systems in typical traffic scenarios
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