Title :
Pseudo-maximum-likelihood data estimation algorithm and its application over band-limited channels
Author :
Sadjadpour, Hamid R. ; Weber, Charles L.
Author_Institution :
Shannon Lab., AT&T Res., Florham Park, NJ, USA
fDate :
1/1/2001 12:00:00 AM
Abstract :
A pseudo-maximum-likelihood data estimation (PML) algorithm for discrete channels with finite memory in additive white Gaussian noise environment is developed. Unlike the traditional methods that utilize the Viterbi algorithm (VA) for data sequence estimation, the PML algorithm offers an alternative solution to the problem. The simplified PML algorithm is introduced to reduce the computational complexity of the PML algorithm for channels with long impulse response. The adaptive version of the PML algorithm suitable for time-varying channels such as frequency-selective Rayleigh fading channels is also introduced. Computer simulation results demonstrate the performance of these algorithms and compare them to the VA-based techniques for different types of channels. The performance design criterion for the PML algorithm is derived in the Appendix
Keywords :
AWGN channels; Rayleigh channels; adaptive estimation; computational complexity; data communication; land mobile radio; maximum likelihood sequence estimation; time-varying channels; transient response; Computer simulation; MLSE; adaptive version; additive white Gaussian noise environment; band-limited channels; computational complexity; data sequence estimation; discrete channels; finite memory; frequency-selective Rayleigh fading channels; long impulse response; maximum likelihood decoding; performance; pseudo-maximum-likelihood data estimation algorithm; time-varying channels; Additive white noise; Channel estimation; Computational complexity; Delay estimation; Equalizers; Fading; Intersymbol interference; Maximum likelihood estimation; Signal processing algorithms; Viterbi algorithm;
Journal_Title :
Communications, IEEE Transactions on
