Title :
Resource Partitioning and Call Admission Control in a Rain Faded Satellite Channel with Real-Time Connections
Author_Institution :
ISTI-CNR, Pisa
Abstract :
The paper aims at devising a control system for dynamic resource allocation in a multi-service satellite network with real-time and streaming connections. A master station adaptively partitions the overall satellite capacity among the earth stations, according to their traffic load and fading conditions. Within the bandwidth temporarily assigned, the stations independently perform call admission control (CAC) of real-time connection requests and assign the proper redundancy to overcome the fading effects. Thus, there is a double cross-layer interaction between the physical and data link layers, whereby the fading severity plays a role in the overall bandwidth allocation. The performance of the method is analyzed by simulation, under a realistic link budget and real fading patterns
Keywords :
bandwidth allocation; fading channels; resource allocation; satellite links; telecommunication congestion control; wireless channels; bandwidth allocation; call admission control; data link layers; dynamic resource allocation; multiservice satellite network; rain faded satellite channel; real-time connections; resource partitioning; Bandwidth; Call admission control; Channel allocation; Control systems; Fading; Rain; Real time systems; Resource management; Satellite ground stations; Telecommunication traffic; Cross-Layer; Satellite; Stochastic Knapsack;
Conference_Titel :
Wireless Communication Systems, 2005. 2nd International Symposium on
Conference_Location :
Siena
Print_ISBN :
0-7803-9206-X
DOI :
10.1109/ISWCS.2005.1547834
