%0 Journal Article
%T INTERFERENCE REJECTION OF SIGNALS BY ADAPTIVE MINIMUM MEAN SQUARE ERROR CRITERION OVER RAYLEIGH FADING CHANNELS
%A AMITA SONI
%A NEENA GUPTA
%J Journal of Engineering Science and Technology
%D 2009
%I Taylor's University
%X Channel time-variation (or fading) is the major source of impairment in digital wireless communications. This occurs due to mobility of the user or of the objects in the propagation environment. The limited spectral bandwidth necessitates the use of resource sharing schemes between multiple users. As the transmission medium is shared between the users, this leads to interference between the users. Sharing of resource results in interference such as multiple access interference. This paper deals with methods to study and mitigate such interference considering Rayleigh fading channels. There are various classes of fading conditions. The use of CDMA is under active research as a viable alternative to TDMA and FDMA. Performance in this system is limited by narrowband and multiple access interference. Various methods are used to mitigate them. But here, linear MMSE detector is considered. MMSE technique results in interference rejection. Its adaptive form is applied to Rayleigh fading channels, which are reflective and nondispersive. It results into better results than before.
%K MMSE (Minimum mean square error)
%K SIR (signal to interferenceratio)
%K Rayleigh fading channels
%K CDMA (Code division multipleaccess)
%K MAI (multiple access interference)
%U http://jestec.taylors.edu.my/Vol%204%20Issue%201%20March%2009/Vol_4_1_99-110_Amita_Soni.pdf