复高斯反射积下MIMO-OTH雷达目标探测的分集增益

2014 IEEE China Summit & International Conference on Signal and Information Processing (ChinaSIP) Pub Date : 2014-07-09 DOI:10.1109/ChinaSIP.2014.6889332

Qi Ding, Qian He, Zishu He, Rick S. Blum

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引用次数: 2

摘要

考虑一个多输入多输出天波超视距(MIMO-OTH)雷达系统，该系统具有m个发射天线和N个接收天线，采用传统的最优探测器来探测单个复杂高斯目标。来自第m发射天线的信号经电离层经Qm射线路径反射后到达目标。这些多径信号中的每一个都从目标上反弹，经过电离层的反射，再次通过Hmn射线路径到达第n个接收器。因此，在到达接收端之前，发射的信号在目标上反射一次，在电离层上反射两次，这三种反射中的任何一种都可以归类为复杂高斯反射或确定性反射。如果将其中一个或两个反射建模为复高斯反射，而将其他反射建模为确定性反射，则表明最大可能的分集增益是由方程的上界。

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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Diversity gain for MIMO-OTH radar target detection under product of complex Gaussian reflections

Consider a multiple-input multiple-output skywave over-the-horizon (MIMO-OTH) radar system withM transmit and N receive antennas employing the conventional optimal detector for a single complex Gaussian target. The signal from the mth transmit antenna reaches the target after being reflected by the ionosphere via Qm ray paths. Each of these multipath signals bounce off the target and reach the nth receiver after being reflected by the ionosphere again via Hmn ray paths. Thus the transmitted signals are reflected once off the target and twice by the ionosphere before arriving at the receive end, and any of these three reflections can be either categorized as being complex Gaussian or deterministic. If either one or two of the reflections are modeled as complex Gaussian while the others are modeled as deterministic, it is shown that the largest possible diversity gain is upper bounded by equation.

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2014 IEEE China Summit & International Conference on Signal and Information Processing (ChinaSIP)

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