Abstract
High-Speed Orthogonal-Frequency-Division-Multiplexing (HS-OFDM) is an OFDM system with high OFDM symbol rate. In HS-OFDM system, the symbol period is comparable with the multipath delay-spread of the channel. No cyclic-prefix is used with HS-OFDM to increase the bandwidth efficiency. HS-OFDM suffers from Inter-Symbol Interference (ISI) and Inter-Carrier Interference (ICI) signals. In this paper, a complete mathematical model of the received HS-OFDM signal with both ISI and ICI interfering signals are represented. A novel receiver that tracks the time-varying channel gain and reduces the effects of the interfering signals, is proposed based on the deduced mathematical model. The new receiver depends on a new arrangement of decision-feedback equalizer, which is designed in frequency domain. The paper illustrates how the taps of the equalizer are calculated, and it calculates the remaining amount of interference after the use of the proposed receiver. The used model of the wireless channel in HS-OFDM system is the frequency-selective channel. It models the outdoor channel in HS-OFDM system.
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Henkel, W., Taubock, G., Odling, P., Borjesson, P. O., & Petersson, N. (2002). The cyclic prefix of OFDM/DMT - An analysis. In IEEE International Seminar on Broadband Communications, Zurich, Feb. 2002.
Melsa, P. J. W., Younce, R. C., & Rohrs, C. E. (1996). Impulse response shortening for discrete multitone transceivers. IEEE Transactions on Communications, 44, 1662–1672.
Parsaee, G. R., Zamiri, H., & Khoshbin, H. (2004). Extended time domain SINR maximizing equalizer design for OFDM systems. In Proceedings 14th Iraninan Conference on Electrical Engineering ICEE 2004, Vol. 1, Mashhad, Iran, pp. 249–254.
Zamiri-Jafarian, H., Parsaee, G. R., Khoshbin-Ghomash, H., & Pasupathy, S. (2004). SINR maximizing equalizer design for OFDM systems. In Proceedings IEEE International Conference on Acoustic, Sound and Signal Processing, 2004, Montreal, Canada.
Schuer, R. & Speidel, J. (2001). An effective equalization method to minimize delay spread in OFDM/DMT systems. In IEEE Conference on Communications, vol. 5, pp. 1481–1484, June 2001.
Chow, J., & Cioffi, J. M. (1992). A cost effective maximum likelihood receiver for multicarrier systems. In Proceedings of International Conference on Communications, Chicago, June 1992, pp. 948–952.
Zhu, J., Ser, W., & Nehorai, A. (2000). Channel equalization for DMT with insufficient cyclic prefix. In Proceedings of IEEE 34th Asimolar Conference on Signals, Systems and Computers, Vol. 2, Oct. 2000, pp. 951–955.
Yarali, A. (2004). MMSE-DFE equalizer design for OFDM systems with insufficient cyclic prefix. In Proceedings of Vehicular Technology Conference, 2004. VTC2004-Fall.
Hassan, A. Y. (2015). A wide band QAM receiver based on DFE to reject ISI in wireless time varying fading channel. AEU - International Journal of Electronics and Communications, 69(1), 332–343.
Paper under review.
Proakis, J. G. (2001). Digital communications. New York: McGraw-Hill Inc.
Hassan, A. Y. (2016). Digital modulation using complex-exponential basic functions and orthogonal pulse-shapes. JÖKULL Journal (The Iceland Journal of Life Sciences), 66(2), 271–287.
Hassan, A. Y. (2016). Double rate OFDM system in time varying channel. In Proceedings of The Twenty-First IEEE International Symposium on Computers and Communications (IEEE-ISCC2016), 2016.
Verdu, S. (1998). Multiuser detection (1st ed.). Cambridge: Cambridge University Press.
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Hassan, A.Y. A Novel Structure of High Speed OFDM Receiver to Overcome ISI and ICI in Rayleigh Fading Channel. Wireless Pers Commun 97, 4305–4325 (2017). https://doi.org/10.1007/s11277-017-4726-x
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DOI: https://doi.org/10.1007/s11277-017-4726-x