DocumentCode
1989975
Title
Modeling end-to-end QoS management and resource reservation for multimedia mobile radio network
Author
Rejeb, S.B. ; Choukair, Z. ; Tabbane, S.
Author_Institution
Unite de Recherche en Technol. de l´´Inf. et de la Commun., Ecole Nationale Superieure des Commun. de Tunis, Cite El Ghazaia, Tunisia
fYear
2003
fDate
14-18 July 2003
Firstpage
23
Abstract
Summary form only given. Operators face network resource allocation management problems from end to end, while still using the bandwidth efficiently. Thus, the constraints concern user mobility, different traffic characteristics, QoS parameters (throughput, delay, jitter,...). The satisfaction of the user depends on subjective parameters related to the rendering of the requested services (end-to-end quality of service). In order to answer these expectations, prescriptions have been formulated by the IETF within the framework of the intserv/diffserv group which targets network QoS control. The call admission control (CAC) is essential within this mobile communication architecture because the network resources are limited. The purpose of the work is to specify traffic threshold parameters and the constraints in terms of QoS for a resource allocation based on a call admission control mechanism in a mobile network. In our approach, this mechanism takes place in two stages: the first stage at the level of the new call acceptation capability by cell registered at mobile radio SLA (level agreement service), where user mobility is considered as being a major constraint for call acceptance. The second stage takes place at the diffserv operator network level. QoS acceptance is defined by the SLA contract specifying the parameters of the different levels of acceptance. At global level, new call or handover call acceptance is based on a collective and consensual decision between the different participating networks. Such a consensus aims to take a consistent decision to reserve resources according to one of the levels of service predefined by the caller SLA and then to allow the caller to renegotiate the level of service QoS according to traffic load fluctuation, or to negotiate new resources for new applications requested during the session. The other participant networks can also initiate a renegotiation for the same reasons.
Keywords
bandwidth allocation; mobile radio; multimedia communication; quality of service; resource allocation; telecommunication congestion control; telecommunication network management; telecommunication traffic; CAC; SLA; call admission control; diffserv operator; end-to-end QoS management; handover call acceptance; level agreement service; mobile communication architecture; multimedia mobile radio network; network resource allocation management; resource reservation; traffic load fluctuation; traffic threshold parameter specification; user mobility; Bandwidth; Call admission control; Diffserv networks; Land mobile radio; Quality of service; Radio spectrum management; Resource management; Telecommunication traffic; Throughput; Traffic control;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Systems and Applications, 2003. Book of Abstracts. ACS/IEEE International Conference on
Conference_Location
Tunis, Tunisia
Print_ISBN
0-7803-7983-7
Type
conf
DOI
10.1109/AICCSA.2003.1227457
Filename
1227457
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