ERROR PERFORMANCE OF MT SYSTEM USING ADAPTIVE MODULATION WITH GUARD PERIOD

I.A. Qatawneh and M.I. Dababneh

References

  1. [1] M. Okada, S. Hara, & N. Morinaga, Bit error rate performance of orthogonal multi carrier modulation radio transmission systems, IEICE Transactions on Communications, 76 (2), 1993, 113–119.
  2. [2] C.W. Baum & K.F. Conner, A multicarrier transmission scheme for wireless local communications, IEEE Journal on Selected Areas in Communications, 14 (3), 1996, 521–529. doi:10.1109/49.490237
  3. [3] H. Gharavi, Pilot-assisted 16-level QAM for wireless video, IEEE Transactions on Circuits and Systems for Video Technology, 12 (2), 2002, 77–89. doi:10.1109/76.988655
  4. [4] R.W. Chang, Synthesis of band-limited orthogonal signals for multichannel data transmission, Bell System Technical Journal, 45, 1966, 1775–1796.
  5. [5] P. Shelswell, The COFDM modulation system the heart of digital audio broadcasting, Electronics Communication Engineering Journal, 1, 1995, 127–136. doi:10.1049/ecej:19950309
  6. [6] H. Sari et al., Transmission techniques for digital terrestrial TV broadcasting, IEEE Communications Magazine, 1995, 100–109. doi:10.1109/35.350382
  7. [7] S. Benedetto, E. Bigleiri, & V. Castelenni, Digital transmission theory (London, UK: Prentice-Hall International Limited, 1989).
  8. [8] J.A.C. Bingham, Multi carrier modulation for data transmission: An idea whose time has come, IEEE Communication Magazine, 2, 1990, 5–14. doi:10.1109/35.54342
  9. [9] R.W. Chang & R.A. Gibby, Orthogonal multiplexed data transmission, IEEE Transactions on Communication Technology, 18, 1968, 530–540.
  10. [10] M. Dababneh & I. Qatawneh, Novel mathematical model for capacity evaluation of modern digital radio systems, Information Technology Journal, 4 (3), 2005, 654–660.
  11. [11] J.D. Oetting, A comparison of modulation techniques for digital radio, IEEE Transactions on communications, 27 (12), 1979, 1752–1763. doi:10.1109/TCOM.1979.1094370
  12. [12] N. Benvenuto & S. Tomansin, On the comparison between OFDM and single carrier modulation with a DFE using a frequency-domain feed forward filter, IEEE Transactions on Communications, 50 (6), 2002, 947–955. doi:10.1109/TCOMM.2002.1010614
  13. [13] M.I. Dababneh, Mobile environment coverage issues and delay spread measurement in modern communications systems, Journal of Applied Science, 5 (3), 2005, 597–603.
  14. [14] S.B.Weinstein, Data transmission by frequency division multiplexing using the discrete fourier transform, IEEE Transactions on Communication Technology, 19 (5), 1971, 628–634. doi:10.1109/TCOM.1971.1090705
  15. [15] M. Carrasco & A. Lange, What markets for DAB in Western Europe, First Inter Symposium on DAB Proceeding, 1992, 245–262.
  16. [16] M.I. Dababneh, Error performance of OFDM utilizing differentially encoded 16 STAR QAM in AWGN and RICIAN fading 390 channels, International Multiconference Communications in Computer Engineering, Nevada, USA, 2005.
  17. [17] S.B. Bulumulla, S.A. Kassam, & S.S.Venkatesh, A systematic approach to detecting OFDM signals in fading channels, IEEE Transactions on Communications, 48 (5), 2000, 725–728. doi:10.1109/26.843179
  18. [18] D. Pommier & Y. Wu, Interleaving or spectrum spreading in digital radio intended for vehicles, EBU Review-Technical No. 217, 1986, 128–142.
  19. [19] J.G. Proakis, Digital communications, Third Edition (New York: McGraw Hill, 1995).
  20. [20] D. Pommier & Y. Wu, Interleaving or spectrum spreading in digital radio intended for vehicles, EBU Review-Technical No. 217, 1986, 128–142.
  21. [21] A. Banerjee, D. Costello, & P. Messey, Bit interleaved coded modulation using multiple turbo codes, ISIT 2002, Lausanne, Switzerland, 2002, June 30–July 5.

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