Serial and parallel demodulation trade-offs for QBL-MSK

Proceedings of TCC'94 - Tactical Communications Conference Pub Date : 1994-05-10 DOI:10.1109/TCC.1994.472128

D. Rasmussen, G. Davis

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引用次数: 2

Abstract

The authors discuss quasi bandlimited MSK. Analytical and simulated BER performance results for both carrier phase and bit synchronization timing errors were determined for serial and parallel demodulation. For a nonlimited modulated signal and ideal demodulator (no carrier phase or timing error), a BER degradation of 0.41 dB with respect to MSK performance is achieved for both serial and parallel demodulators with the sub-optimum data filter. A limited modulation signal increases the BER degradation by no more than 0.2 dB for both demodulator architectures. Serial demodulation is shown to be less sensitive to carrier phase error, while parallel demodulation offers less sensitivity to timing error. For both carrier phase and timing errors, the serial demodulator will provide less BER degradation than the parallel, if the timing error is kept small. Serial demodulation using average zero crossing bit synchronization is shown to provide either the same or less than a 0.1 dB increase in BER degradation as compared to that obtained with maximum eye opening synchronization. This result is significant, since average zero crossing synchronization is easily implemented in hardware.<>

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QBL-MSK的串行和并行解调权衡

讨论了准带限MSK。分析和模拟了串行和并行解调中载波相位和位同步时序误差的误码率性能。对于非限制调制信号和理想解调器(无载波相位或定时误差)，对于具有次优数据滤波器的串行和并行解调器，相对于MSK性能，误码率降低了0.41 dB。对于两种解调器结构，有限调制信号增加的误码率下降不超过0.2 dB。串行解调对载波相位误差的敏感性较低，而并行解调对时序误差的敏感性较低。对于载波相位和时序误差，如果时序误差保持较小，串行解调器将比并行解调器提供更少的误码率退化。使用平均零交叉位同步的串行解调显示，与最大开眼同步相比，误码率下降的增加相同或小于0.1 dB。这个结果很重要，因为平均过零同步很容易在硬件中实现

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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