OFDM FOR WSNS USING CONTINUOUS PHASE MODULATION WITH FRS INTERLEAVER

Fatma H. El-Fouly, Rabie A. Ramadan, and Salah A. Aly

View Full Paper

References

  1. [1] M. Ilyas and I. Mahgoub, Handbook of sensor networks: Compact wireless and wired sensing systems (New York, NY: CRC Press, 2005).
  2. [2] R. Amasa, Inter carrier interference cancellation in OFDM systems, M. Tech thesis, Department Electronics and Communication Engineering, National Institute of Technology Rourkela, Rourkela, Orissa, India, 2009.
  3. [3] J. Bingham, Multicarrier modulation for data transmission: an idea whose time has come, IEEE Communications Magazine, 28, 1990, 5–14.
  4. [4] J. Henaut, A. Lecointre, D. Dragomirescu, and R. Plana, Radio interface for high data rate wireless sensor networks, Proc. Int. Conf. on Computing Communications and Control Technologies, Orlando, FL, April 1, 2010.
  5. [5] S.C. Thompson and A.U. Ahmed, Constant envelope OFDM, IEEE Transactions on Communication, 56(8), 2008, 1300–1312.
  6. [6] K. Dostert, Power line communications (Upper Saddle River, NJ: Prentice-Hall, 2001).
  7. [7] C.K. Sung, J. Heo, and I. Lee, Adaptive bit-interleaved coded OFDM with reduced feedback information, IEEE Transactions on Communications, 55(9), 2007, 1649–1655.
  8. [8] S.W. Lei and V.K.N. Lau, Performance analysis of adaptive interleaving for OFDM systems, IEEE Transactions on Vehicular Technology, 51(3), 2002, 435–444.
  9. [9] Z. Abdel Hamid, M. Samir, S.M. Abd El-atty, A.E. El-Hennawy, H.El Shenawy, S.A. Alshebeili, and F.E. Abd El-Samie, On the performance of FFT/DWT/DCT-based OFDM systems with chaotic interleaving and channel estimation, Wireless Personal Communication, 78(2), 2014, 1495–1510.
  10. [10] Y.Q. Shi, X.M. Zhang, Z.-C. Ni, and N. Ansari, Interleaving for combating bursts of errors, IEEE Circuits and Systems Magazine, 4, 2004, 29–42.
  11. [11] V.D. Nguyen and H. Kuchenbecker, Block interleaving for soft decision Viterbi decoding in OFDM systems, IEEE VTC, Atlantic City, NJ, USA, 2001, 470–474.
  12. [12] Y. Wu and W.Y. Zou, Orthogonal frequency division multiplexing: A multicarrier modulation scheme, IEEE Transactions on Consumer Electronics, 41(3), 1995, 392–399.
  13. [13] S. Hara and R. Prasad, Multicarrier techniques for 4G mobile communications (Boston: Artech House, 2003).
  14. [14] S.H. Han and J.H. Lee, An overview of peak-to-average power ratio reduction techniques for multicarrier transmission, IEEE Wireless Communications, 12(2), 2005, 56–65.
  15. [15] J.B. Andersson, T. Aulin, and C.-E. Sundberg, Digital phase modulation (New York, NY: Plenum Press, 1986).
  16. [16] J. Henaut, A. Lecointre, D. Dragomirescu, and R. Plana, Radio interface for high data rate wireless sensor networks, Int. Conf. on Computing, Communications and Control Technologies, Orlando, FL, 2008.
  17. [17] S.C. Thompson, J.G. Proakis, and J.R. Zeidler, Constant envelope binary OFDM phase modulation, Proc. 23rd Military Communication Conference, Baltimore, MD, 2003.
  18. [18] S.C. Thompson, A. U. Ahmed, J.G. Proakis, and J.R. Zeidler. Constant envelope OFDM phase modulation: spectral containment, signal space properties and performance, Proc. 23rd Military Communication Conference, Baltimore, MD, 2004.
  19. [19] Tsai, G. Zhang, and J.L. Pan, Orthogonal frequency division multiplexing with phase modulation and constant envelope design, Proc. 23rd Military Communication Conf., Baltimore, MD, 2005.
  20. [20] S.C. Thompson, J.G. Proakis, and J.R. Zeidler, Noncoherent reception of constant envelope OFDM in flat fading channels, Proc. IEEE 16th Int. Symp. on PIMRC, Baltimore, MD, 2005.
  21. [21] S. Benedetto, G. Montorsi, A. Perotti, and A. Tarable, Optimization of CPM pragmatic capacity, IEEE GLOBECOM, Washington, DC, USA, 2007, 1421–1425.
  22. [22] B.E. Rimoldi, A decomposition approach to CPM, IEEE Transactions on Information Theory, 34, 1988, 260–270.
  23. [23] S.C. Thompson and A.U. Ahmed, Constant envelope OFDM, IEEE Transactions on Communication, 56(8), 2008. http://elsteve.com/thesis/
  24. [24] S.C. Thompson, Constant envelope OFDM phase modulation, Ph.D. Dissertation, University of California, San Diego, 2005. [Online]. Available: http://elsteve.com/thesis/
  25. [25] M.K. Simon and M.-S. Alouini, Digital communication over fading channels (New York, NY: John Wiley & Sons, Inc., 2000).
  26. [26] J.G. Proakis and M. Salehi, Communication systems engineering (Upper Saddle River, NJ: Prentice Hall, 1994).
  27. [27] M. P¨atzold, Mobile fading channels (West Sussex, England: John Wiley & Sons, 2002).
  28. [28] E.S. Hassan, X. Zhu, S.E. El-Khamy, M.I. Dessouky, S.A. El-Dolil, and F.E.A. El-Samie, A continuous phase modulation single-carrier wireless system with frequency domain equalization, Proc. IEEE Int. Conf. Computer Engineering & Systems (ICCES ), Cairo, Egypt, 2009, 599–604.
  29. [29] H. Sari, G. Karam, and I. Jeanclaude, Transmission techniques for digital terrestrial TV broadcasting, IEEE Communications Magazine, 3, 1995, 100–109.
  30. [30] Y. Tsai, G. Zhang, and J.-L. Pan, Orthogonal frequency division multiplexing with phase modulation and constant envelope design, Proc. IEEE Milcom, 4, 2005, 2658–2664.
  31. [31] S. Hara and R. Prasad, Overview of multicarrier CDMA, IEEE Communication Magazine, 35, 1997, 126–144.
  32. [32] E.S. Hassa, Xu Zhu, S.E. El-Khamy, et al., Enhanced performance of OFDM and single-carrier systems using frequency domain equalization and phase modulation, 26th National Radio Science Conference (NRSC2009 ), Cairo, Egypt, 2009, 1–10.
  33. [33] J.G. Proakis and D.G. Manolakis, Digital signal processing: principles, algorithms, and applications, 3rd ed. (Upper Saddle River, NJ: Prentice Hall, 1996).
  34. [34] E.S. Hassan, S.E. El-Khamy, M.I. Dessouky, S.A. El-Dolil, and F.E. Abd El-Samie, New interleaving scheme for continuous phase modulation based OFDM systems using chaotic maps, Proc. of WOCN-09, Cairo, Egypt, 2009, 28–30.
  35. [35] T.S. Rappaport, Wireless communications principles & practice, (Upper Saddle River, NJ: Prentice-Hall, 1998).
  36. [36] J.G. Proakis, Digital communication, 4th ed. (Boston: McGraw-Hill, 2001).
  37. [37] R. Bansal, S. Anand, D. Purwar, and A. Shukla, Application of antenna diversity in HIDMA scheme using gold codes, Proc. of IEEE Int. Conf. on Communication System and Network Technologies, Katra, Jammu, 2011, 228–231.
  38. [38] D. Hao and P.A. Hoeher, Helical interleaver set design for interleave-division multiplexing and related techniques, IEEE Communications Letters, 12(11), 2008, 843–845.
  39. [39] P. Hanpinitsak and C. Charoenlarpnopparut, 2D interleaver design for image transmission over severe burst-error environment, International Journal of Future Computer and Communication, 2(4), 2013, 308–312.
  40. [40] E.S. Hassan, Xu Zhu, S.E. El-Khamy, M.I. Dessouky, S.A. El-Dolil, and F.E. Abd El-Samie, Performance evaluation of OFDM and single carrier systems using frequency domain equalization and phase modulation, International Journal of Communication Systems, 24, 2011, 1–13.

Important Links:

Go Back