[1] N. Al-Dhahir and J. M. Cioffi, Optimum finite-length equalization for multicarrier transceivers, IEEE Trans. Communications 44(1) (1996), 56-64.
[2] S. Weinstein and P. Ebert, Data transmission by frequency division multiplexing using the discrete Fourier transform, IEEE Trans. Commun. Tech. COM-19 (1971), 628-634.
[3] Nghi H. Tran, Ha H. Nguyenand Tho Le-Ngoc, Bit-interleaved coded OFDM with signal space diversity: subcarrier grouping and rotation matrix design, IEEE Trans. Signal Process. 55(3) (2007), 1137-1149.
[4] E. Lawrey, The suitability of OFDM as a modulation technique for wireless telecommunications, with a CDMA Comparison, Thesis, James Cook University, 1997.
[5] Won Gi Jeon, Kyung Hi Chang and Yong Soo Cho, An equalization technique for orthogonal frequency-division multiplexing systems in time-variant multipath channels, IEEE Transactions on Communications 47(1) (1999), 27-32.
[6] S. Mallat, A Wavelet Tour of Signal Processing, 2nd ed., Academic Press, New York, 1999.
[7] A. R. Lindsey, Wavelet packet modulation for orthogonally multiplexed communication, IEEE Trans. Signal Process. 45 (1997), 1336-1337.
[8] X. Zhang, P. Xu, G. Zhang and G. Bi, Study on complex wavelet packet based OFDM modulation (CWP-OFDM), ACTA Electron. Sinica 30 (2002), 476-479.
[9] H. Zhang, D. Yuan, M. Jiang and D. Wu, Research of DFT-OFDM and DWT-OFDM on different transmission scenarios, IEEE ICITA’2004, Harbin, China, 2004.
[10] S. R. Deans, The Radon Transform and Some of its Applications, John Wiley & Sons, New York, 1983.
[11] E. D. Bolker, The finite Radon transform, Integral Geometry, Contemporary Mathematics 63 (1987), 27-50.
[12] F. Natterer, The Mathematics of Computerized Tomography, John Wiley & Sons, 1989.
[13] G. Beylkin, Discrete Radon transforms, IEEE Trans. Acoustic, Speech and Signal Processing, ASSP-35, 1987, pp. 162-172.
[14] W. Al-Jawhar, Abbas H. Kattoush, S. M. Abbas and A. T. Shaheen, A high speed high performance parallel Radon based OFDM transceiver design and simulation, Elsevier, Digital Signal Processing 18 (2008), 907-918.
[15] C. S. Burrus, R. A. Gopinath and H. Guo, Introduction to Wavelets and Wavelet Transforms, A Primer, Prentice Hall, Upper Saddle River, NJ, USA, 1998.
[16] A. Graps, An Introduction to Wavelets, IEEE Computational Science and Eng. 2(2) (1995), 50-61.
[17] J. C. Goswami and A. K. Chan, Fundamentals of Wavelets Theory, Algorithms and Applications, John Wiley & Sons Ltd., 1999.
[18] S. Mallat, A theory for multiresolution signal decomposition: the wavelet representation, IEEE Pattern Anal. Machine Intell. 11(7) (1989), 674-693.
[19] Z. J. Mohammed, VIDEO image compression based on multiwavelets transform, Ph.D. Thesis, University of Baghdad, 2004.
[20] Minh N. Do and Martin Vetterli, The finite ridgelet transform for image representation, IEEE Trans. Image Process. 12(1) (2003), 16-28. |