Author :
Chi, Chong-Yung ; Chen, Ching-Yung ; Chen, Chii-Horng ; Feng, Chih-Chun
Abstract :
Statistical signal processing has been one of the key technologies in the development of wireless communication systems, especially for broadband multiuser communication systems which severely suffer from intersymbol interference (ISI) and multiple access interference (MAI). This article reviews batch processing algorithms for blind equalization using higher-order statistics for mitigation of the ISI induced by single-input, single-output channels as well as of both the ISI and MAI induced by multiple-input, multiple-output channels. In particular, this article reviews the typical inverse filter criteria (IFC) based algorithm, super-exponential algorithm, and constant modulus algorithm along with their relations, performance, and improvements. Several advanced applications of these algorithms are illustrated, including blind channel estimation, simultaneous estimation of multiple time delays, signal-to-noise ratio (SNR) boost by blind maximum ratio combining, blind beamforming for source separation in multipath, and multiuser detection for direct sequence/code division multiple access (DS/CDMA) systems in multipath.
Keywords :
blind equalisers; blind source separation; broadband networks; channel estimation; code division multiple access; delay estimation; digital filters; diversity reception; higher order statistics; interference suppression; intersymbol interference; multipath channels; multiuser detection; radiofrequency interference; reviews; signal processing; spread spectrum communication; DS/CDMA systems; IFC based algorithm; ISI; MAI; batch processing algorithms; blind beamforming; blind channel estimation; blind equalization; blind maximum ratio combining; broadband multiuser communication; constant modulus algorithm; direct sequence/code division multiple access systems; higher-order statistics; intersymbol interference; inverse filter criteria based algorithm; multipath; multiple access interference; multiple time delays; multiple-input multiple-output channels; multiuser detection; signal-to-noise ratio boost; single-input single-output channels; source separation; statistical signal processing; super-exponential algorithm; wireless communication systems; Blind equalizers; Broadband communication; Delay estimation; Filters; Higher order statistics; Intersymbol interference; Multiaccess communication; Multiple access interference; Signal processing algorithms; Wireless communication;
