Resource allocation and user scheduling for a multibeam satellite with signal path diversity

Abstract

The advanced multibeam satellite equipped with phased array antenna can effectively serve a large number of users over its coverage area by beamforming narrow spotbeams and managing interbeam interference. In this paper, we investigate a scheme of resource allocation and user scheduling when the multibeam satellite has a choice of routing signals to a gateway/feeder antenna or sending directly to end user terminals. The satellite scheduler faces a problem of choosing a better signal path by considering transmission diversity to improve reliability and throughput. We formulate a general utility problem and give a resource allocation and user scheduling solution based on channel conditions and potential interbeam interference that is primarily determined by geographical distribution of users and gateway locations. By comparing direct transmission to users and routing via gateway/feeder antenna, the scheduler chooses users to be served at each transmit opportunity and the optimum transmission strategy that gives the highest marginal return of the utility in terms of transmit power allocation and signal path selection. From the optimum scheduling policy, a computationally efficient algorithm is proposed. Simulation results show that the use of gateway/feeder antenna can increase the sum capacity of the multibeam satellite regardless of the interference level.