基于确定性最小二乘的盲均衡中基函数的应用

M. Zoltowski, Der-Feng Tseng, T. Thomas
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引用次数: 15

摘要

提出了一种用于线性调制窄带数字通信的盲信道识别方案,该方案仅依赖于至少两个空间分离天线的各自输出。所提出的方法是基于两个FIR滤波器各自输出之间的确定性关系,由Xu, Liu, Tong和Kailath观察到的相同输入信号馈送。信号处理,p.2982- 93,1995)。它还依赖于使用从奈奎斯特符号波形衍生的基函数来表征每个通道各自的脉冲响应,这是Schell和Smith首先提出的(参见IEEE Milcom-94, p.128-32, 1994)。对于延迟扩展为T/sub 0/数量级的城市蜂窝场景,其中1/T/sub 0/为符号速率,我们表明给定天线的连续时间信道可以通过少量奈奎斯特符号波形的时移版本的线性组合来很好地近似。无论实际多路径的数量和它们各自的到达时间如何,相应的时移可以在延迟传播中等间隔。这导致了一个关键的观察,即对于给定的天线,相同的基系数值既表征了从t=0开始的符号间隔采样实现的“实”离散时间信道,也表征了从t=(t /下标0/)/2开始的符号间隔采样实现的虚拟离散时间信道。这反过来又导致了一种信道识别方案,在每个天线上每个符号需要两个采样,这种方案在中等信噪比的情况下,用相对较少的符号盲目地识别每个信道。进一步的结果是,可以直接从每个天线的基函数系数值计算出一组大致跨越延迟扩展的小阶FIR均衡滤波器。
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On the use of basis functions in blind equalization based on deterministic least squares
A blind channel identification scheme for narrowband digital communications with linear modulation is proposed that relies solely on the respective outputs of at least two spatially separated antennas. The proposed method is based on a deterministic relationship between the respective outputs of two FIR filters fed by the same input signal observed by Xu, Liu, Tong, and Kailath (see IEEE Trans. on Signal Processing, p.2982-93, 1995). It also relies on the use of basis functions derived from the Nyquist symbol waveform to characterize each channel's respective impulse response as first proposed by Schell and Smith (see IEEE Milcom-94, p.128-32, 1994). For urban cellular scenarios where the delay spread is on the order of T/sub 0/, where 1/T/sub 0/ is the symbol rate, we show that the continuous-time channel for a given antenna may be well approximated by a linear combination of a small number of time-shifted versions of the Nyquist symbol waveform. The corresponding time shifts may be equi-spaced across the delay spread regardless of the number of actual multipaths and their respective times of arrival. This leads to a critical observation that for a given antenna the same basis coefficient values characterize both the "real" discrete-time channel realized by symbol-spaced sampling starting at t=0 and the virtual discrete-time channel realized by symbol-spaced sampling starting at t=(T/sub 0/)/2. This, in turn, leads to a channel identification scheme requiring two samples per symbol at each antenna that blindly identifies each channel with a relatively small number of symbols in a moderate SNR scenario. A further result is that a bank of small order FIR equalizing filters spanning roughly the delay spread may be computed directly from the basis function coefficient values for each antenna.
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