Multi-access properties of transform domain spread spectrum systems

Proceedings of TCC'94 - Tactical Communications Conference Pub Date : 1994-05-10 DOI:10.1109/TCC.1994.472093

J. D. Endsley, Richard A. Dean

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引用次数: 7

Abstract

Summary form only given, as follows. This paper examines the multi-access properties of transform domain spread spectrum systems for use in tactical battlefield scenarios. Transform domain spread spectrum (XDSS) systems evolved as an attractive solution for low probability of detection/interception (LPD/I) systems that operate in interference and multipath environments. However, the same properties that make XDSS systems robust to interference and multipath, when combined with multi-access features, make XDSS systems attractive for tactical battlefields as well. We illustrate the advantages of transform domain spread spectrum over more traditional direct sequence spread spectrum methods by examining three multi-access techniques: (1) orthogonally coded direct sequence (OCDS), (2) cyclic code shift keying (CCSK), and (3) XDSS. All of these systems can be either coherent or noncoherent; however, we concentrate on non-coherent M-ary waveform modulation methods. We first show that while OCDS systems mitigate multi-user interference problems when the received user waveforms are synchronized, they lose this property when any time offsets are introduced by multipath and propagation delay. In addition, OCDS systems do not naturally resolve the time shifted versions caused by multipath, so RAKE processing for the M-ary signal set can be expensive. On the other hand, a CCSK system can readily use fast convolution methods to naturally resolve circularly delayed versions of the signal. Provided the processing gain is sufficiently large, a CCSK system can easily implement a RAKE combiner. The CCSK system, however, only provides isolation from other users by taking advantage of the low cross correlation properties of the spreading code. This make CCSK systems subject to near/far interference problems. By showing that XDSS systems have orthogonal CCSK signal sets, we illustrate how XDSS systems can provide robust, multi-access communications in tactical battlefield scenarios where ECCM and LPD/I properties are important.<>

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变换域扩频系统的多址特性

仅给出摘要形式，如下。本文研究了用于战术战场场景的变换域扩频系统的多址特性。变换域扩频(XDSS)系统是在干扰和多路径环境中运行的低概率检测/拦截(LPD/I)系统的一种有吸引力的解决方案。然而，使XDSS系统对干扰和多路径具有鲁棒性的相同属性，当与多访问特性相结合时，也使XDSS系统对战术战场具有吸引力。本文通过分析三种多址技术(1)正交编码直接序列(OCDS)、(2)循环码移键控(CCSK)和(3)XDSS来说明变换域扩频相对于传统直接序列扩频方法的优势。所有这些系统要么是相干的，要么是非相干的;然而，我们专注于非相干m -玛利波形调制方法。我们首先表明，虽然OCDS系统在接收到的用户波形同步时减轻了多用户干扰问题，但当多径和传播延迟引入任何时间偏移时，它们就失去了这种特性。此外，OCDS系统不能自然地解决由多路径引起的时移版本，因此对M-ary信号集进行RAKE处理可能会很昂贵。另一方面，CCSK系统可以很容易地使用快速卷积方法来自然地解析信号的循环延迟版本。如果处理增益足够大，CCSK系统可以很容易地实现RAKE组合器。然而，CCSK系统仅通过利用扩频码的低互相关特性来提供与其他用户的隔离。这使得CCSK系统受到近/远干扰问题的影响。通过展示XDSS系统具有正交CCSK信号集，我们说明了XDSS系统如何在战术战场场景中提供鲁棒的多址通信，其中ECCM和LPD/I属性很重要。

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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Proceedings of TCC'94 - Tactical Communications Conference

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