Discrete Lagrangian method for optimizing the design of multiplierless QMF filter banks

Proceedings IEEE International Conference on Application-Specific Systems, Architectures and Processors Pub Date : 1997-07-14 DOI:10.1109/ASAP.1997.606858

B. Wah, Yi Shang, Zhe Wu

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引用次数: 17

Abstract

In this paper, we present a new discrete Lagrangian optimization method for designing multiplierless QMF (quadrature mirror filter) filter banks. In multiplierless QMF filter banks, filter coefficients are powers-of-two (PO2) where numbers are represented as sums or differences of powers of two (also cabled Canonical Signed Digit-CSD-representation), and multiplications can be carried out as additions, subtractions and shifting. We formulate the design problem as a nonlinear discrete constrained optimization problem, using the reconstruction error as the objective, and other performance metrics as constraints. One of the major advantages of this formulation is that it allows us to search for designs that improve over the best existing designs with respect to all performance metrics, rather than finding designs that trade one performance metric for another. We show that our design method can find designs that improve over Johnston's benchmark designs using a maximum of three to six ONE bits in each filter coefficient.

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无乘法器QMF滤波器组优化设计的离散拉格朗日方法

本文提出了一种新的离散拉格朗日优化方法，用于设计无乘法器QMF(正交镜像滤波器)滤波器组。在无乘法器的QMF滤波器组中，滤波器系数是2的幂(PO2)，其中数字表示为2的幂的和或差(也称为规范签名数字- csd表示)，乘法可以作为加法，减法和移位进行。我们将设计问题表述为一个非线性离散约束优化问题，以重建误差为目标，以其他性能指标为约束。这个公式的主要优点之一是，它允许我们搜索在所有性能指标方面优于现有最佳设计的设计，而不是寻找用一个性能指标交换另一个性能指标的设计。我们表明，我们的设计方法可以找到优于Johnston基准设计的设计，每个滤波器系数中最多使用3到6个ONE位。

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 IEEE International Conference on Application-Specific Systems, Architectures and Processors

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