E. Dahlman, "A Study of Adaptive Detectors for Fast-Varying Mobile-Radio Channels," Report No. TRITA-TTT-9213, Section 5, Royal Institute of Technology (Oct. 19, 1992). |
G. D. Forney, Jr., "The Viterbi Algorthm," Proc. of the IEEE, vol. 61, No. 3, pp. 268-278 (Mar. 1973). |
R. A. Iltis, "A Bayesian Maximum-Likelihood Sequence Estimation Algorithm for A-Priori Unknown Channels and Symbol Timing," Departent of Electrical and Computer Engineering, University of California, Santa Barbara (Aug. 21, 1990). |
L. Lindbom, "Adaptive Equalization for Fading Mobile Radio Channels,"Chap. 4, Rpt. No. UPTEC 92124R, Institute of Technlogy, Uppsala University (Nov. 1992). |
F. R. Magee, Jr. et al., "Adaptive Maximum-Likelihood Sequence Estimation for Digital Signaling in the Presence of Intersymbol Interference,"IEEE Trans. on Information Theory, pp. 120-124 (Jan. 1973). |
K. Okanoue et al., "New MLSE Receiver Free From Sample Timing and Input Level Controls," 43rd IEEE Vehicular Technology Conf., pp. 408-411 (May 18-20, 1993). |
S. U. H. Qureshi, "Adaptive Equilization," Proc. of the IEEE vol. 73, No. 9, pp. 1370-1372 (Sep. 1985). |
G. Ungerboeck, "Adaptive Maxmum-Likelihood Receiver for Carrier-Modulated data-Transmission Systems," IEEE Trans. on Communications, vol. COM-22, No. 5, pp. 624-636 (May 1974). |
Y. Wan et al., "Fractionally-Spaced Maximum-likelihood Sequence Estimation Receiver in a Multipath Fading Environment," Proc. of the IEEE, ICASSP, pp. 689-692 (1992). |