可变分数阶延迟二维FIR滤波器的无离散化设计方法

2001 IEEE Third Workshop on Signal Processing Advances in Wireless Communications (SPAWC'01). Workshop Proceedings (Cat. No.01EX471) Pub Date : 2001-03-20 DOI:10.1109/SPAWC.2001.923921

T. Deng, Wu-Sheng Lu

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引用次数: 2

摘要

为设计具有连续可变二维分数延迟的可变二维数字滤波器，提出了一种封闭式加权最小二乘解。首先，变量二维FIR滤波器的系数由一对分数阶延迟(p/sub 1/，p/sub 2/)的多项式表示。然后，在不采样两个频率(w/sub 1/，w/sub 2/)和两个分数阶延迟(p/sub 1/， p/sub 2/)的情况下，推导了可变二维频率响应的加权平方误差函数，从而显著降低了计算复杂度。假设总体权重函数是可分的和逐步的，将设计问题简化为加权平方误差函数的最小化。最后，导出了可变二维FIR滤波器最优系数矩阵的闭型解。

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Discretization-free method for designing variable fractional delay 2-D FIR filters

This paper proposes a closed-form weighted least-squares solution for designing variable two-dimensional (2D) digital filters with continuously variable 2D fractional delays. First, the coefficients of the variable 2D FIR filter are represented by using the polynomials of a pair of fractional delays (p/sub 1/,p/sub 2/). Then the weighted squared-error function of the variable 2D frequency response is derived without sampling the two frequencies (w/sub 1/,w/sub 2/) and the two fractional delays (p/sub 1/, p/sub 2/), which leads to a significant reduction in computational complexity. With the assumption that the overall weighting function is separable and stepwise, the design problem is reduced to the minimization of the weighted squared-error function. Finally, the closed-form solutions for the optimal coefficient matrices of the variable 2D FIR filter are derived.

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2001 IEEE Third Workshop on Signal Processing Advances in Wireless Communications (SPAWC'01). Workshop Proceedings (Cat. No.01EX471)

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