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System Modeling and Precoding Design for Multi-beam Dual-polarized Satellite MIMO System
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Background:
As the multimedia service develops and the transmission rate in terrestrial
communication systems increases rapidly, satellite communication needs to improve the transmission
rate and throughput. Multiple Input Multiple Output (MIMO) techniques can increase the system
capacity significantly by introducing the space dimension, as the system bandwidth remains the
same. Therefore, utilization of MIMO for satellite communications to increase the capacity is an important
research topic. So MIMO techniques for multibeam satellite communications are researched
in the dissertation.
Objective:
The goal of this work is improving the capacity of the satellite system. Multi-beam and
dual-polarized technologies are applied to a satellite system to improve the capacity further.
Methods:
In this paper, we first introduce a multi-beam dual-polarized satellite multi-put and multiout
(MBDP-S-MIMO) system which combines the full frequency multiplexing and dual-polarization
technologies. Then the system model and channel model are first constructed. At last, to improve the
capacity further, BD and BD-ZF precoding algorithms are applied to MBDP-S-MIMO and their performance
is verified by simulation.
Results:
Simulation results show the performance of the BD precoding algorithm gets better with the
growth of the XPD at the receiver and is almost not affected by the growth of the channel polarization
correlation coefficient. In addition, with the growth of the users’ speed, the performance becomes
worse.
Conclusion:
The multi-beam dual-polarized satellite MIMO system has high capacity, and it has
certain application prospects for satellite communication.
Bentham Science Publishers Ltd.
Title: System Modeling and Precoding Design for Multi-beam Dual-polarized Satellite MIMO System
Description:
Background:
As the multimedia service develops and the transmission rate in terrestrial
communication systems increases rapidly, satellite communication needs to improve the transmission
rate and throughput.
Multiple Input Multiple Output (MIMO) techniques can increase the system
capacity significantly by introducing the space dimension, as the system bandwidth remains the
same.
Therefore, utilization of MIMO for satellite communications to increase the capacity is an important
research topic.
So MIMO techniques for multibeam satellite communications are researched
in the dissertation.
Objective:
The goal of this work is improving the capacity of the satellite system.
Multi-beam and
dual-polarized technologies are applied to a satellite system to improve the capacity further.
Methods:
In this paper, we first introduce a multi-beam dual-polarized satellite multi-put and multiout
(MBDP-S-MIMO) system which combines the full frequency multiplexing and dual-polarization
technologies.
Then the system model and channel model are first constructed.
At last, to improve the
capacity further, BD and BD-ZF precoding algorithms are applied to MBDP-S-MIMO and their performance
is verified by simulation.
Results:
Simulation results show the performance of the BD precoding algorithm gets better with the
growth of the XPD at the receiver and is almost not affected by the growth of the channel polarization
correlation coefficient.
In addition, with the growth of the users’ speed, the performance becomes
worse.
Conclusion:
The multi-beam dual-polarized satellite MIMO system has high capacity, and it has
certain application prospects for satellite communication.
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