A Robust Ratio-Threshold Technique to Mitigate Tone and Partial Band Jamming in Coded MFSK Systems

MILCOM 1982 - IEEE Military Communications Conference - Progress in Spread Spectrum Communications Pub Date : 1982-10-01 DOI:10.1109/MILCOM.1982.4805943

A. Viterbi

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引用次数: 189

Abstract

It is well known [Refs 1, 2] that a tone or partial-band noise jammer can so choose his jamming strategy as to cause the bit error rate of a frequency-hopped MFSK transmission system, to be an inverse linear function of Eb/No = (W/R)/(J/S), where W is the total available bandwidth available to the communicator, R is the bit rate and J/S is the jammer-to-signal power margin. This situation can be greatly improved by the use of coding, but with hard decisions, performance is still significantly worse than in additive Gaussian noise, unless sufficient time diversity (hops/bit) are employed to thwart such jammers - but at a cost in performance due to coherence loss. This paper investigates use of a simple robust technique which generates a "quality" bit based on the ratio of the maximum filter output to the second largest filter output. This improves coded system performance by as much as 6 dB for a tone jammer and makes lower redundancy (time diversity) more desirable. Performance is determined for both tone and partial band noise jamming and the two are shown to be almost equal and only slightly worse than for full-band Gaussian noise in a coded system.

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一种抑制编码MFSK系统中音调和部分频带干扰的鲁棒比率阈值技术

众所周知[参考文献1,2]，音调或部分频带噪声干扰者可以选择干扰策略，使跳频MFSK传输系统的误码率是Eb/No = (W/R)/(J/S)的逆线性函数，其中W为通信器可用的总可用带宽，R为比特率，J/S为干扰器到信号的功率余量。这种情况可以通过使用编码来极大地改善，但在艰难的决策中，性能仍然明显比加性高斯噪声差，除非使用足够的时间分集(跳数/比特)来阻止这种干扰-但由于相干性损失而在性能上付出代价。本文研究了一种简单的鲁棒技术的使用，该技术根据最大滤波器输出与第二大滤波器输出的比率产生“质量”比特。这提高了编码系统的性能多达6db的音调干扰，并使较低的冗余(时间分集)更可取。对音调和部分频带噪声干扰的性能进行了确定，结果表明，在编码系统中，两者几乎相等，仅略差于全频带高斯噪声。

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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MILCOM 1982 - IEEE Military Communications Conference - Progress in Spread Spectrum Communications

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