An orthogonal subspace based signal design framework for satellite-terrestrial cognitive coexistence

2015 IEEE 14th International Conference on Cognitive Informatics & Cognitive Computing (ICCI*CC) Pub Date : 2015-07-06 DOI:10.1109/ICCI-CC.2015.7259371

Na Gu, Linling Kuang, Zuyao Ni, Jianhua Lu

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Abstract

To address the spectrum scarcity caused by the development of broadband services, cognitive radio is recognized as one of the most effective methods. Herein, in the perspective of cognitive radio, we study anti-interference techniques for the coexistence of satellite and terrestrial systems with the terrestrial downlink as primary and the satellite reverse link as secondary. First, a design framework based on the orthogonal subspace theory for anti-interference signals is proposed in this paper. With the extraction of the subspace gathering the interference characteristics, the satellite anti-interference signal is designed to be orthogonal to the terrestrial interference signal in the orthogonal complementary subspace. Then non-contiguous OFDMA (NC-OFDMA) and eigen-based CDMA (ECDMA) are unified in the proposed framework and their distinctions are analyzed. Finally, the performances of NC-OFDMA and ECDMA under different interference scenarios and the spectral efficiency are evaluated respectively by simulations, providing references for system engineering design.

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基于正交子空间的星地认知共存信号设计框架

为了解决宽带业务发展带来的频谱短缺问题，认知无线电被认为是最有效的方法之一。本文从认知无线电的角度，研究了以地面下行链路为主、卫星反向链路为辅的星地共存系统的抗干扰技术。首先，提出了一种基于正交子空间理论的抗干扰信号设计框架。通过提取汇聚干扰特征的子空间，将卫星抗干扰信号设计成与地面干扰信号正交的正交互补子空间。然后将非连续OFDMA (NC-OFDMA)和基于特征的CDMA (ECDMA)统一到该框架中，并分析了它们的区别。最后，通过仿真分别评价了NC-OFDMA和ECDMA在不同干扰场景下的性能和频谱效率，为系统工程设计提供参考。

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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来源期刊

2015 IEEE 14th International Conference on Cognitive Informatics & Cognitive Computing (ICCI*CC)

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