IP satellite networks are gaining a considerable interest mainly due
to their ability to deliver high bandwidth services to nation-wide
areas. However some difficulties still exist to implement IP based
transport mechanisms on geostationary satellite networks (i.e. TCP
based protocols are affected by the large delay-bandwidth product).
The satellite network architecture presented in this paper is designed
to provide a complete QoS support for IP traffic based on the DS
paradigm, while minimizing the waste of the valuable satellite resource.
The proposed technique operates on two time scales: a short term
reaction compensates fast traffic variations by an appropriate scheduling
while a medium term resource allocation mechanism reduces the wasted
bandwidth.
%0 Journal Article
%1 ronga2003gateway
%A Ronga, Luca Simone
%A Pecorella, Tommaso
%A Del Re, Enrico
%A Fantacci, Romano
%D 2003
%E Wiley,
%J Int. J. Satell. Commun. and Networking
%K GEO Gateway
%N 4-5
%P 351--366
%R doi:10.1002/sat.757
%T A Gateway Architecture for IP Satellite Networks with Dynamic Resource Management and DiffServ QoS Provision
%V 21
%X IP satellite networks are gaining a considerable interest mainly due
to their ability to deliver high bandwidth services to nation-wide
areas. However some difficulties still exist to implement IP based
transport mechanisms on geostationary satellite networks (i.e. TCP
based protocols are affected by the large delay-bandwidth product).
The satellite network architecture presented in this paper is designed
to provide a complete QoS support for IP traffic based on the DS
paradigm, while minimizing the waste of the valuable satellite resource.
The proposed technique operates on two time scales: a short term
reaction compensates fast traffic variations by an appropriate scheduling
while a medium term resource allocation mechanism reduces the wasted
bandwidth.
@article{ronga2003gateway,
abstract = {IP satellite networks are gaining a considerable interest mainly due
to their ability to deliver high bandwidth services to nation-wide
areas. However some difficulties still exist to implement IP based
transport mechanisms on geostationary satellite networks (i.e. TCP
based protocols are affected by the large delay-bandwidth product).
The satellite network architecture presented in this paper is designed
to provide a complete QoS support for IP traffic based on the DS
paradigm, while minimizing the waste of the valuable satellite resource.
The proposed technique operates on two time scales: a short term
reaction compensates fast traffic variations by an appropriate scheduling
while a medium term resource allocation mechanism reduces the wasted
bandwidth.},
added-at = {2018-08-27T17:11:07.000+0200},
author = {Ronga, Luca Simone and Pecorella, Tommaso and Del Re, Enrico and Fantacci, Romano},
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bdsk-url-1 = {http://dx.doi.org/10.1002/sat.757},
biburl = {https://www.bibsonomy.org/bibtex/219b828d85f5d18b05173f6999f825056/tpecorella},
date-modified = {2006-04-07 19:12:01 +0200},
doi = {doi:10.1002/sat.757},
editor = {Wiley},
interhash = {160147196b53483e7454d6df63b311f9},
intrahash = {19b828d85f5d18b05173f6999f825056},
journal = {Int. J. Satell. Commun. and Networking},
keywords = {GEO Gateway},
month = {July--October},
number = {4-5},
pages = {351--366},
timestamp = {2018-08-27T17:11:07.000+0200},
title = {A Gateway Architecture for {IP} Satellite Networks with Dynamic Resource Management and {DiffServ} {QoS} Provision},
volume = 21,
year = 2003
}