Processor-efficient FFT Implementation Scheme for Active Noise Control Applications

2010 Sixth International Conference on Signal-Image Technology and Internet Based Systems Pub Date : 2010-12-15 DOI:10.1109/SITIS.2010.32

P. V. Kumar, K. Prabhu, D. Das

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引用次数: 1

Abstract

Most of the frequency-domain (FD)-based active noise control (ANC) applications involve the computation of several discrete Fourier transforms (DFTs). Conventionally, an N-point DFT of a sequentially arriving data is computed only after the arrival of the N th sample. For applications involving ANC, such an approach will overload the processor. In this paper, an alternative method to compute the DFT is proposed, which distributes the computations over a span of several sampling instants. As an example to prove the efficiency of the proposed algorithm, it is applied to the reduced delay-less frequency-domain block filtered-x least-mean-square (RD-FBFXLMS) algorithm, wherein about 24% (for a block length of 1024 samples) of the multiplications and about 29% of additions (which were supposed to have been done at the last sampling instant of each block) are shifted to earlier sampling instants during which the processor is idle. The percentage of computational redistribution will be higher for multi channel non-linear systems.

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主动噪声控制应用的处理器高效FFT实现方案

大多数基于频域(FD)的主动噪声控制(ANC)应用涉及多个离散傅里叶变换(dft)的计算。通常，顺序到达的数据的N点DFT只在到达第N个样本后才计算。对于涉及ANC的应用程序，这种方法将使处理器过载。本文提出了一种计算DFT的替代方法，该方法将计算分布在几个采样瞬间的跨度上。作为证明该算法效率的一个例子，将其应用于减少延迟的无频域块滤波-x最小均方(RD-FBFXLMS)算法，其中约24%(对于1024个样本的块长度)的乘法和约29%的加法(应该在每个块的最后一个采样时刻完成)被转移到处理器空闲的较早采样时刻。对于多通道非线性系统，计算再分配的百分比将更高。

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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2010 Sixth International Conference on Signal-Image Technology and Internet Based Systems

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