Title :
Block transmission equalizers using constrained minimum variance filters with application to MC-CDM
Author :
Bury, Andreas ; Lindner, Jürgen
Author_Institution :
Dept. of Inf. Technol., Ulm Univ., Germany
Abstract :
Equalizers for general block transmissions are derived based on two concepts. Firstly, filters are designed to minimize the noise variance constrained to deliver unbiased estimates; this enables a good performance with arbitrary quadrature amplitude modulation (QAM). Secondly, for derivation of decision feedback equalizers, we propose the principle of modeling the uncertainty of subtracting hypothetical interference, derived from previous estimates, as a virtual noise. The equalization algorithm is described by an iterative procedure, covering both the linear equalizer (without iterations) and decision feedback equalizers. Different variants for decision feedback are presented, including hard interference cancellation and different types of soft interference cancellation. For the special case of an orthogonally spread transmission over Rayleigh fading channels, e.g., multi-carrier code division multiplexing (MC-CDM), an efficient implementation using fast transforms is described. The performance of the proposed equalizers is assessed by computer simulation
Keywords :
Rayleigh channels; decision feedback equalisers; filtering theory; interference suppression; quadrature amplitude modulation; transforms; MC-CDM; QAM; Rayleigh fading channels; block transmission equalizers; computer simulation; constrained minimum variance filters; decision feedback equalizers; equalization algorithm; fast transforms; hard interference cancellation; iterative procedure; linear equalizer; multi-carrier code division multiplexing; noise variance; orthogonally spread transmission; quadrature amplitude modulation; soft interference cancellation; unbiased estimates; virtual noise; Amplitude estimation; Decision feedback equalizers; Filters; Interference cancellation; Interference constraints; Iterative algorithms; Noise cancellation; Noise level; Quadrature amplitude modulation; Uncertainty;
Conference_Titel :
Spread Spectrum Techniques and Applications, 2000 IEEE Sixth International Symposium on
Conference_Location :
Parsippany, NJ
Print_ISBN :
0-7803-6560-7
DOI :
10.1109/ISSSTA.2000.878103
