The space-ground hybrid beamforming technology in satellite communmication system

2017 First International Conference on Electronics Instrumentation & Information Systems (EIIS) Pub Date : 2017-06-01 DOI:10.1109/EIIS.2017.8298605

W. Yue, Sheng Weixing

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Abstract

Traditional space-based beamforming is totally conducted on the satellite, which brings lots of problems to the space signal processing. Ground-based beamforming system transfers the beamforming operation to the ground, but we face the problem of too much down link data and too many channels especially in the case of a lot of antenna array elements. The space-ground hybrid beamforming technology combines the advantages of these two projects. First, we adopt FAPI algorithm to extract the subspace of desired signal and interference signals to realize the compression of the matrix, which effectively decreases the amount of down link data. Then, signals transmit through channels to the ground. We use LCMV iteration algorithm to make signals beamformed. This technology not only lightens the space processing burden, but also reduces the number of channels and saves channel resources. According to the simulation results, space dimension reduction operation has no impacts on the performance of the ground adaptive beamforming, which proves the effectiveness of the algorithm.

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卫星通信系统中空间-地面混合波束形成技术

传统的天基波束形成是完全在卫星上进行的，这给空间信号处理带来了很多问题。地面波束形成系统将波束形成工作转移到地面，但在天线阵列单元众多的情况下，面临着下行链路数据过多、信道过多的问题。空间-地面混合波束形成技术结合了这两种技术的优点。首先，采用FAPI算法提取期望信号和干扰信号的子空间，实现对矩阵的压缩，有效地减少了下行链路数据量。然后，信号通过通道传输到地面。采用LCMV迭代算法实现信号的波束形成。该技术不仅减轻了空间处理负担，而且减少了信道数量，节省了信道资源。仿真结果表明，空间降维操作对地面自适应波束形成的性能没有影响，证明了算法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 First International Conference on Electronics Instrumentation & Information Systems (EIIS)

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