Fractionally spaced coherent detection with DF MAP estimation of statistically known time-varying Rayleigh fading channel
Document Type
Conference Proceeding
Publication Date
12-1-1997
Abstract
Coherent symbol by symbol detection using fractionally spaced samples in a time-varying frequency flat Rayleigh fading channel is presented. The proposed detector incorporates a decision feedback (DF) maximum a posteriori (MAP) channel estimator that can be applied to a time-varying flat Rayleigh fading channel with an arbitrary but known spaced-time correlation function. The best achievable bit error rate performance for this detector is obtained by assuming correct bit decisions while performing channel estimation. Differential encoding is used in order to prevent the phase reversal phenomenon during the estimator's operation in a decision directed mode. Numerical results suggest that with only a few samples per symbol and with a short memory estimator depth, most of the gain due to oversampling can be achieved.
Identifier
0031387240 (Scopus)
Publication Title
Conference Record IEEE Global Telecommunications Conference
First Page
419
Last Page
423
Volume
1
Recommended Citation
Liu, H.; Siveski, Z.; and Ansari, N., "Fractionally spaced coherent detection with DF MAP estimation of statistically known time-varying Rayleigh fading channel" (1997). Faculty Publications. 16633.
https://digitalcommons.njit.edu/fac_pubs/16633
