[1]A. J. Goldsmith and S. G. Chua, “Adaptive Coded Modulation for Fading Channels,” IEEE Trans. Commun. vol. 46, pp. 595-601, May 1998.
[2]A. J. Goldsmith and S. G. Chua, “Variable-Rate Variable-Power MQAM for Fading Channels,” IEEE Trans. Common., vol. 45, pp. 1218-1230, Oct.
[3]M. S. Alouini, X. Tang, amd A.J. Goldsmith, “An Adaptive Modulation Scheme for Simultaneous Voice and Data Transmission over Fading Channels,” IEEE J. Select. Areas. Common., vol. 17, pp. 837-850, May 1999.
[4]A. J. Goldsmith and P. Varaiya, “Capacity of Fading Channels with Channel Side Information,” IEEE Trans. Inform. Theory, vol. 43, pp. 1986-1992, Nov. 1997.
[5]M. S. Alouini and A. J. Goldsmith, “Capacity of Rayleigh Fading Channels under Different Adaptive Transmission and Diversity-Combining Techniques,” IEEE Trans. Veh. Technol., vol. 48, pp. 1165-1181, July 1999.
[6]Thomas Keller and Lajos Hanzo, “Adaptive Modulation Techniques for Duplex OFDM Transmission,” IEEE Trans. Technol., vol. 49, No. 5, Sept. 2000.
[7]V. K. N. Lau and S.V. Maric, “Variable Rate Adaptive Modulation for DS-CDMA,” IEEE Trans. Commun., vol. 47, pp. 577-589, Apr. 1999.
[8]V .K. N. Lau, “Channel Capacity and Error Exponents of Variable Rate Adaptive Channel Coding for Rayleigh Fading Channels,” IEEE Trans. Commun., vol. 47, pp. 1345-1356, Sept. 1999.
[9]M. Raitola, A. Hottinen, and R. Wichman, “Transmission Diversity in Wideband CDMA,” in proc. IEEE Veh. Technol. Conf., VTC’99, vol. 2, pp. 1545-1549, July 1999.
[10]Alexandra Duel-Hallen, Shenhquan Hu, and Hans Hallen, “Long Range Prediction of Fading Signals,” IEEE signal processing magazine, May 2000.
[11]Goldsmith A., “Adaptive Modulation and Coding for Fading Channels,” information theory and communications workshop, 1999. Proceedings of the 1999 IEEE, 1999.
[12]Shengquan Hu, Hans Hallen, and Alexandra Duel-Hallen, “Physical Channel Modeling, Adaptive Prediction and Transmitter Diversity for Flat Fading Mobile Channel,” IEEE, 1999.
[13]Tugay Eyceoz, Alexandra Duel-Hallen, and Hans Hallen, “Deterministic Channel Modeling and Long Range Prediction of Fast Fading Mobile Radio Channels,” IEEE Commun. letters, vol. 2, No. 9, Sept. 1998.
[14]Wee-Peng Ang and B. Farhang-Boroujeny, “A New Class of Gradient Adaptive Step-Size LMS Algorithm,” IEEE transactions on signal processing, 2001.
[15]Wee-Peng Ang and B. Farhang-Boroujeny, “Gradient Adaptive Step-Size LMS Algorithms:Past Result & New Developments,” IEEE, 2000.
[16]A. Benveniste, M. Metivier, and P. Priouret, “Adaptive Algorithms and Stochastic Approximation,” New York:Springer-Verlag, 1990.
[17]W. C. Jakes, “Microwave Mobile Communications,” New York: Wiley, 1974.
[18]Robert Berezdivin, Robert Breinig, and Randy Topp, Raytheon, “Next-Generation Wireless Communications Concepts and Technologies,” IEEE communications magazine, March 2002.
[19]Simon Haykin, “Communication Systems.”
[20]Shengquan hu and. Duel-Hallen A., “Combined Adaptive Modulation and Transmitter Diversity Using Long Range Prediction for Flat Fading Mobile Radio Channels,” Global Telecommunications Conference, 2001. GLOBECOM ''01. IEEE , Volume: 2, 2001.
[21]Shengquan Hu; Eyceoz T.; Duel-Hallen, A.; and Hallen, H., “Transmitter Antenna Diversity and Adaptive Signaling Using Long Range Prediction for Fast Fading DS/CDMA Mobile Radio Channels,” Wireless Communications and Networking Conference, 1999. WCNC. 1999 IEEE, 1999.
[22]Shengquan Hu; Duel-Hallen, A.; Hallen, H., “Adaptive Modulation Using Long Range Prediction for Flat Rayleigh Fading Channels,” Information Theory, 2000. Proceedings. IEEE International Symposium on, 2000.
[23]Haykin, “Adaptive Filter Theory”.
[24]V. J. Mathews and Z. Xie, “Stochastic Gradient Adaptive Filters with Gradient Adaptive Step Size,” IEEE Trans. Signal Processing, vol. 41, pp. 2075-2087, June 1993.