Bit Error Probability and Computational Complexity of Bi-directonal Fano Multiple Symbol Differential Detectors

P. Pun, P. Ho
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Abstract

We present in the paper a suboptimal multiple-symbol differential detector (MSDD) for differential PSK (DPSK) in Rayleigh flat fading channel that uses the Fano Algorithm as its decoding engine. In contrast to a conventional Fano decoder that only searches forward in time for the most promising transmitted pattern, our Fano decoder searches also in the reverse direction, thus providing a mechanism for error detection and correction. The resultant detector, termed a Bi-Fano MSDD, is capable of delivering excellent error performance at moderate implementation complexity over a wide range of signal-to-noise ration (SNR) and fading rates. As an example, for DQPSK modulation and a Doppler frequency of 3 percent the symbol rate, our Bi-Fano MSDD attains almost the same bit-error probability (BEP) performance as the sphere decoder (an efficient implementation of the optimal MSDD) and there is no noticeable irreducible error floor. The most interesting thing is that the computational complexity of the Bi-Fano MSDD is a very stable function of the SNR. In contrast, the sphere decoder has a complexity that grows exponentially as the SNR decreases. In conclusion, the Bi-Fano MSDD incorporates the desirable attributes of the sphere decoder and the DF-DD into one single embodiment. This is consistent with the observation that the Fano decoder is essentially an intelligent DF-DD that uses the accumulated path metric and a running threshold to guide its movement along the decoding tree
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双向Fano多符号差分检测器的误码概率和计算复杂度
本文提出了一种用于瑞利平坦衰落信道差分PSK (DPSK)的次优多符号差分检测器(MSDD),该检测器使用Fano算法作为其解码引擎。与传统的Fano解码器只及时向前搜索最有希望的传输模式相比,我们的Fano解码器也在反向搜索,从而提供了一种错误检测和纠正机制。由此产生的检测器,称为Bi-Fano MSDD,能够在较宽的信噪比(SNR)和衰落速率范围内以中等的实现复杂度提供出色的误差性能。例如,对于DQPSK调制和3%符号率的多普勒频率,我们的Bi-Fano MSDD实现了几乎与球体解码器相同的误码概率(BEP)性能(最优MSDD的有效实现),并且没有明显的不可减少的错误层。最有趣的是,Bi-Fano MSDD的计算复杂度是一个非常稳定的信噪比函数。相比之下,球体解码器的复杂性随着信噪比的降低呈指数增长。总之,Bi-Fano MSDD将球体解码器和DF-DD的理想属性合并到一个实施例中。这与观察到的Fano解码器本质上是一个智能DF-DD一致,它使用累积路径度量和运行阈值来指导其沿着解码树移动
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