A blind variable step-size method to enhance the blind multi-user detector performance for DS-CDMA systems
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Date
2012
Authors
Journal Title
Journal ISSN
Volume Title
Type
Conference Paper
Publisher
IEEE Computer Society
Series Info
2012 8th International Computer Engineering Conference: Today Information Society What's Next?, ICENCO 2012
Scientific Journal Rankings
Abstract
In this paper we will propose a new blind variable step-size method which is mainly based upon the exponentially weighted step-size method to enhance the performance of the recursive versions of the CMA and the CC-CMA algorithms in multi-user applications. The proposed method presents a new method which detects blindly the channel impulse response variation according to the ever-changing environmental conditions, and then uses this variation to adjust the step-size parameter that attenuates this variation by the exponential ratio at each iteration of the adaptive blind equalization algorithm. As a result we will gain a step-size parameter sufficient for updating the tap weight coefficient vector of the blind equalizer iteratively, and that will speed up the convergence rate, minimize the mean square error (MSE) and enhance the performance of the blind detectors for DS-CDMA systems. � 2012 IEEE.
Description
Scopus
Keywords
Blind Equalization, Code-division multiple-access (CDMA), multiuser detection, Blind equalization, Impulse response, Iterative methods, Mean square error, Mobile radio systems, Multiuser detection, Adaptive blind equalization algorithms, Channel impulse response, Code division multiple access (CDMA), Environmental conditions, Mean Square Error (MSE), Multi-user applications, Multi-User Detectors, Variable step size methods, Code division multiple access