Title :
On the comparison of optimum least-squares and computationally efficient DFT-based adaptive block filters
Author :
Estermann, Pius ; Kaelin, August
Author_Institution :
Inst. for Signal & Inf. Process., Swiss Federal Inst. of Technol., Zurich, Switzerland
fDate :
30 Apr-3 May 1995
Abstract :
In this paper, we discuss a general frequency-domain adaptive algorithm, which can be implemented very efficiently, the so-called partitioned frequency-domain least-mean-square (PFLMS) algorithm. In comparing this PFLMS algorithm with the optimum block recursive least-squares (BRLS) algorithm, we consider its tracking behaviour, i.e., the ability to track changes of the unknown plant. We discuss the design of the PFLMS algorithm by investigating the selection of its free parameter, the DFT length. We show that for typical applications, such as cancelation of acoustic echos and active noise control, it can be designed such that its tracking behaviour is optimum. We emphasize that such an optimally designed PFLMS algorithm cannot be improved, e.g., by reusing the input data
Keywords :
acoustic filters; acoustic signal processing; active noise control; adaptive filters; discrete Fourier transforms; echo suppression; frequency-domain analysis; least mean squares methods; DFT; acoustic echo cancellation; active noise control; adaptive block filters; block recursive least-squares algorithm; computational efficiency; optimum tracking; partitioned frequency-domain least-mean-square algorithm; Acoustic applications; Acoustic noise; Active noise reduction; Adaptive algorithm; Algorithm design and analysis; Discrete Fourier transforms; Finite impulse response filter; Noise cancellation; Partitioning algorithms; Signal processing;
Conference_Titel :
Circuits and Systems, 1995. ISCAS '95., 1995 IEEE International Symposium on
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-2570-2
DOI :
10.1109/ISCAS.1995.523717
