Title :
Turbo equalizations for sparse channels
Author :
Park, J. ; Gelfand, S.B.
Author_Institution :
Sch. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
Turbo equalization scheme provides nearly optimal performance but when it is employed in sparse multipath channel environments, the equalizer complexity can prohibit its use and develops a parallel trellis n-tap maximum a posteriori (MAP) equalizer, which can consider n dominant taps of sparse channels in the trellis with reasonable complexity. It is shown that turbo equalizations employing n-tap MAP equalizer can achieve nearly the same asymptotic performance of optimal maximum likelihood (ML) detector assuming perfect intersymbol interference (ISI) cancellation which is required for n-tap MAP. We also propose a tap allocation scheme for time-varying minimum mean squared error (MMSE) equalizer which can significantly reduce complexity and provide good tracking performance in time-varying channels.
Keywords :
channel estimation; intersymbol interference; least mean squares methods; maximum likelihood detection; maximum likelihood estimation; multipath channels; optimisation; parallel algorithms; sparse matrices; time-varying channels; trellis codes; turbo codes; ISI; MAP; MMSE; intersymbol interference cancellation; maximum likelihood detector; minimum mean squared error; optimal performance; parallel trellis n-tap maximum a posteriori equalizer; sparse multipath channel environment; tap allocation scheme; time-varying channel; tracking; turbo equalization scheme; Delay; Equalizers; Filters; Interference cancellation; Intersymbol interference; Maximum likelihood decoding; Maximum likelihood detection; Maximum likelihood estimation; Multipath channels; Time division multiple access;
Conference_Titel :
Wireless Communications and Networking Conference, 2004. WCNC. 2004 IEEE
Print_ISBN :
0-7803-8344-3
DOI :
10.1109/WCNC.2004.1311447
