Title :
Adaptive LMS discrete 2-D orthogonal transforms
Author :
Haweel, Mohammed T. ; Haweel, T.I.
Author_Institution :
Commun. & Electron. Dept., Egyptian Russian Univ. (ERU), Cairo, Egypt
Abstract :
Two-dimensional discrete orthogonal transforms (2-D DOT) are widely used in many communications and signal processing applications. This paper presents and analyses the general relation between such transforms and the 2-D LMS adaptive algorithm. It is shown that, by proper choice of the adaptation constant, the 2-D LMS provides an exact estimate to the forward as well as backward transform coefficients employing any set of 2-D DOT. The 2-D LMS DOT is modular and allows concurrent computation for the transform coefficients and therefore has the potential for fast parallel computations and VLSI implementation. An efficient 2-D threshold LMS DOT algorithm that is robust against impulsive noise is also presented. The efficiency of the 2-D LMS DOT against roundoff errors is demonstrated. Simulation experiments are conducted to justify the analysis and algorithms introduced.
Keywords :
discrete transforms; impulse noise; least mean squares methods; signal processing; 2D LMS adaptive algorithm; VLSI implementation; backward transform coefficient; impulsive noise; signal processing application; two-dimensional discrete orthogonal transform; Decision support systems; Handheld computers; LMS adaptive algorithms; Two-dimensional discrete orthogonal transforms; image compression; impulsive noise; roundoff errors;
Conference_Titel :
Electronics, Communications and Computers (JEC-ECC), 2013 Japan-Egypt International Conference on
Conference_Location :
6th of October City
DOI :
10.1109/JEC-ECC.2013.6766411
