Title :
Low-complexity iterative channel estimation for serially concatenated systems over frequency-nonselective Rayleigh fading channels
Author :
Kim, JoonBeom ; Stüber, Gordon L. ; Li, Ye Geoffrey
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Tech., Atlanta, GA
Abstract :
A low-complexity iterative maximum a posteriori (MAP) channel estimator is proposed whose complexity increases linearly with the symbol alphabet size ´M. Prediction-based MAP channel estimation is not appropriate with a high-order prediction filter or a large modulation alphabet size, since the computational complexity increases with ML , where L is the predictor order. In contrast, the proposed channel estimator has a constant number of trellis states regardless of the prediction filter order, and is shown to provide comparable error performance to the prediction-based MAP estimator
Keywords :
Rayleigh channels; channel estimation; iterative methods; maximum likelihood estimation; frequency-nonselective Rayleigh fading channels; high-order prediction filter; low-complexity iterative channel estimation; maximum a posteriori channel estimation; prediction-based MAP channel estimation; serially concatenated systems; Channel estimation; Concatenated codes; Continuous phase modulation; Fading; Filters; Frequency estimation; Iterative algorithms; Maximum likelihood estimation; Sampling methods; State estimation;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2007.05289
