Maximization of link capacity by joint power and spectrum allocation for smart satellite transponder | IEEE Conference Publication | IEEE Xplore

Maximization of link capacity by joint power and spectrum allocation for smart satellite transponder


Abstract:

The contradiction between ever increasing satellite communication traffic and limited satellite transponder resources motivates a more dynamic allocation and more effecti...Show More

Abstract:

The contradiction between ever increasing satellite communication traffic and limited satellite transponder resources motivates a more dynamic allocation and more effective utilization of satellite transponders' resources. In this paper, the link capacity for a smart satellite transponder is maximized with limited available power and spectrum resource at satellite transponder. Specifically, given that the satellite transponder broadcasts the signals from the gateway station to the multiple satellite terminals with minimum transmission rate requirement, the satellite transponder needs to provide as large link capacity as possible to gateway station for the amount data transmission of special demands. The problem is formulated with aim of maximizing link capacity, and subject to minimum transmission rate requirement of link to satellite terminals and available resource allocation. The finely-matched dynamic power and spectrum allocation scheme is proposed to achieve maximization of both target link capacity and transponder resource utilization. Simulations results demonstrate that the proposed scheme outperforms tradition schemes and the superiority is even more remarkable in multi-constrained situations.
Date of Conference: 11-13 December 2017
Date Added to IEEE Xplore: 01 March 2018
ISBN Information:
Conference Location: Perth, WA, Australia

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