A Scalable Protocol Architecture for End-to-End Signaling and Resource Reservation in IP Networks.
M. Menth. Technical Report, 278. Department of Computer Science, (July 2001)
Abstract
This paper presents a concept of a scalable networking architecture
with end-to-end QoS signaling and resource reservation support. It is a
synthesis of both the Differentiated Services and the Integrated
Services approach. The approach relies on end-to-end resource
reservation and takes advantage of traffic aggregation to reduce the
number of reservation states in the router MIBs. Signaling costs are
further decreased by making overreservation, i.e. bandwidth efficiency
is traded for signaling reduction. We give recommendations to dimension
the degree of overreservation and compute the resulting tradeoff
analytically. The numerical results show that networks running the
proposed architecture can be operated efficiently in spite of
overreservation.
%0 Report
%1 TR278
%A Menth, Michael
%C Department of Computer Science
%D 2001
%K myown
%N 278
%T A Scalable Protocol Architecture for End-to-End Signaling and Resource Reservation in IP Networks.
%U http://www-info3.informatik.uni-wuerzburg.de/TR/tr278.pdf
%X This paper presents a concept of a scalable networking architecture
with end-to-end QoS signaling and resource reservation support. It is a
synthesis of both the Differentiated Services and the Integrated
Services approach. The approach relies on end-to-end resource
reservation and takes advantage of traffic aggregation to reduce the
number of reservation states in the router MIBs. Signaling costs are
further decreased by making overreservation, i.e. bandwidth efficiency
is traded for signaling reduction. We give recommendations to dimension
the degree of overreservation and compute the resulting tradeoff
analytically. The numerical results show that networks running the
proposed architecture can be operated efficiently in spite of
overreservation.
@techreport{TR278,
abstract = {This paper presents a concept of a scalable networking architecture
with end-to-end QoS signaling and resource reservation support. It is a
synthesis of both the Differentiated Services and the Integrated
Services approach. The approach relies on end-to-end resource
reservation and takes advantage of traffic aggregation to reduce the
number of reservation states in the router MIBs. Signaling costs are
further decreased by making overreservation, i.e. bandwidth efficiency
is traded for signaling reduction. We give recommendations to dimension
the degree of overreservation and compute the resulting tradeoff
analytically. The numerical results show that networks running the
proposed architecture can be operated efficiently in spite of
overreservation.
},
added-at = {2015-06-18T10:00:28.000+0200},
address = {Department of Computer Science},
author = {Menth, Michael},
biburl = {https://www.bibsonomy.org/bibtex/28a8c6c2f77104e5c0b272f30bf8b8824/trcsuniwue},
interhash = {5cae96a1e2ecb0bdd649861e3117cfd0},
intrahash = {8a8c6c2f77104e5c0b272f30bf8b8824},
keywords = {myown},
month = {July},
number = 278,
timestamp = {2015-06-18T10:00:28.000+0200},
title = {A Scalable Protocol Architecture for End-to-End Signaling and Resource Reservation in IP Networks.},
type = {Technical Report},
url = {http://www-info3.informatik.uni-wuerzburg.de/TR/tr278.pdf},
year = 2001
}