Title :
Adaptive noise cancelling by accelerated gradients techniques
Author :
Yaminysharif, M. ; Rutter, M.
Author_Institution :
Dept. of Electr. & Electron. Eng., Napier Coll., Edinburgh, UK
Abstract :
Demonstrates the application of the method of steepest descent with exact linear search (SDELS) and the conjugate gradients method (CGM) to adaptive noise cancelling (ANC). An adaptive algorithm based on the method of SEDLS is proposed and its computational complexity and numerical stability are discussed. The performance of the algorithms in terms of convergence speed, tracking data nonstationarities, and the effect of fixed-point roundoff errors is illustrated by simulating a single channel ANC scheme using the standard recursive least-squares algorithm and the proposed algorithm. These results illustrate the close performance of both algorithms and verify the lower numerical sensitivity of the proposed algorithm to quantization errors in a finite-precision implementation. Furthermore, the authors demonstrate how block data adaptation and parallel-processing techniques facilitate the adaptive implementation of the CGM (for stationary data).<>
Keywords :
computational complexity; interference suppression; roundoff errors; CGM; accelerated gradients techniques; adaptive noise cancelling; block data adaptation; computational complexity; conjugate gradients method; convergence speed; exact linear search; finite-precision implementation; fixed-point roundoff errors; numerical sensitivity; numerical stability; parallel-processing techniques; quantization errors; single channel ANC scheme; steepest descent; tracking data nonstationarities; Acceleration; Adaptive algorithm; Computational complexity; Computational modeling; Convergence; Gradient methods; Noise cancellation; Numerical stability; Roundoff errors; User-generated content;
Conference_Titel :
Circuits and Systems, 1988., IEEE International Symposium on
Conference_Location :
Espoo, Finland
DOI :
10.1109/ISCAS.1988.14923
