Model of frequency selective fading

Luis Pedraza; Cesar Hernández; Dora María Ballesteros

doi:10.17533/udea.redin.14605

Authors

Luis Pedraza Francisco José de Caldas District University
Cesar Hernández Francisco José de Caldas District University
Dora María Ballesteros Militar University of New Granada

DOI:

https://doi.org/10.17533/udea.redin.14605

Keywords:

orthogonal frequency division multiplexing, diversity, equalization, cognitive radio, fading

Abstract

In this paper a mathematical analysis of the frequency selective fading produced by multipath propagation is presented, as well as recent techniques to reduce the effects of this phenomenon as: the diversity of antennas, the Rake receiver, the adaptive equalization and OFDM (Orthogonal frequency division multiplexing).

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Author Biographies

Luis Pedraza, Francisco José de Caldas District University

Faculty of Technology.

Cesar Hernández, Francisco José de Caldas District University

Faculty of Technology.

Dora María Ballesteros, Militar University of New Granada

Faculty of Engineering.

References

B. Glance, L. Greenstein. “Frequency-Selective Fading Effects in Digital Mobile Radio with Diversity Combining”. IEEE Transactions on Communications. Vol.31. 1983. pp. 1085-1094. DOI: https://doi.org/10.1109/TCOM.1983.1095939

S.A. Fechtel, H. Meyr. “A novel approach to modeling and effi cient simulation of frequency-selective fading radio channels”. Communications. ICC 93. Geneva. Technical Program, Conference Record, IEEE International Conference on. Vol.1. May 23-26. 1993. pp. 302-306.

K. Jooeung, K. Inkyoung, R. Sangmin, H. Daesik, K. Changeon. “The effects of multipath fading and transmit diversity on adaptive modulation in a frequency selective Rayleigh fading channel”. Acoustics, Speech, and Signal Processing. Proceedings. (ICASSP ‹02). IEEE International Conference on. Vol. 3. 2002. pp. 2185-2188. DOI: https://doi.org/10.1109/ICASSP.2002.1005114

H. Meyr, M. Moeneclaey, S. Fechte. Digital Communication Receivers. Ed. John Wiley & Sons. New York (USA). 1998. pp. 706-710.

R. S. Blum, Y. Li, J. H. Winters, Q. Yan. “Improved Space-Time Coding for MIMO-OFDM Wireless Communications”. IEEE Transactions on Communications. Vol. 49. 2001. pp. 1873-1878. DOI: https://doi.org/10.1109/26.966049

S. W. Kim, K. H. Yoon, R. G. Jung, J. W. Son, H. G. Ryu. “Adaptive Frequency Diversity OFDM (AFDOFDM) Communication Narrow-Band”. Conference of 10th Asia-Pacifi c Conference on Communications and 5th International Symposium on MultiDimensional Mobile Communications, Vols. 1 and 2. 2004. pp. 834-838.

S. Kaiser, K. Fazel. “A Flexible Spread-Spectrum Multicarrier Multiple-Access System for Multi-Media Applications”. Personal, Indoor and Mobile Radio Communications. Vol. 1. 1997. pp. 100-104. DOI: https://doi.org/10.1007/978-1-4615-6231-3_6

T. Pingzhou, H. Xiaojing, E. Dutkiewicz. “Diversity performance of interleaved spread spectrum OFDM signals over frequency selective multipath fading channels”. Communications and Information Technologies. ISCIT ‘07. International Symposium on. Vol. 1. Oct. 17-19. 2007. pp.184-189. DOI: https://doi.org/10.1109/ISCIT.2007.4392009

T. Rappaport. Wireless Communications. Ed. Prentice Hall. New Jersey. 2002. pp. 139-169.

J. Proakis. Digital Communications. Ed. McGrawHill. Singapore. 1995. pp. 134-136.

P. A. Bello. “Characterization of Randomly TimeVariant Linear Channels”. IEEE Transactions on Communications Systems. Vol.11. 1963. pp. 360-393. DOI: https://doi.org/10.1109/TCOM.1963.1088793

M. Pätzold. Mobile Fading Channels. Ed. John Wiley & Sons. West Sussex (England). 2004. pp. 244-247.

A.M. Tulino, G. Caire, S. Shamai, S. Verdu. “Capacity of Channels With Frequency-Selective and TimeSelective Fading”. IEEE Transactions on Information Theory. Vol.56. 2010. pp.1187-1215. DOI: https://doi.org/10.1109/TIT.2009.2039041

S. Yakun, M.L. Honig. “Asymptotic Capacity of Multicarrier Transmission With Frequency-Selective Fading and Limited Feedback”. IEEE Transactions on Information Theory. Vol.54. 2008. pp. 2879-2902. DOI: https://doi.org/10.1109/TIT.2008.924666

K. Marvin, M. Alouini. Digital Communication over Fading Channels. 2a. ed. Ed. John Wiley & Sons. New Jersey (USA). 2005. pp. 316-335.

M. Martone. “An adaptive array for wireless communication systems with frequency selective multipath fading using high order statistics processing”. Communications. ICC 97 Montreal, ‘Towards the Knowledge Millennium’. 1997 IEEE International Conference on. Vol.3. 1997. pp.1356-1360.

R. Esmailzadeh, M. Nakagawa. “Pre-RAKE Diversity Combination for Direct Sequence Spread Spectrum Mobile Communications Systems”. Communications. ICC 93. Geneva. Technical Program, Conference Record, IEEE International Conference on. Vol. 1. 1993. pp. 463-467.

H. Amca, T. Yenal, K. Hacioglu. “Adaptive equalisation of frequency selective multipath fading channels based on sample selection”. Communications, IEE Proceedings. Vol. 146. 1999. pp.55-60. DOI: https://doi.org/10.1049/ip-com:19990011

L. Charan. “Orthogonal Frequency Division Multiplex (OFDM) Tutorial”. 2004. pp. 1-22. www. complextoreal.com. Consultada el 20 de octubre de 2009.

R.S. Bahai, R Saltzberg. Multicarrier Digital Communications, Theory and applications of OFDM. Ed. Kluwer Academic. Berkeley (CA). 1999. pp. 133- 137. DOI: https://doi.org/10.1007/b117709

G. Stüber. Principles of Mobile Communication. 2nd ed. Ed. Kluwer Academic.Norwell (MA). 2002. pp. 40-42.

L. Zhongding, F.P.S. Chin. “Sensing OFDM Systems under Frequency-Selective Fading Channels”. IEEE Transactions on Vehicular Technology. Vol.59. 2010. pp.1960-1968. DOI: https://doi.org/10.1109/TVT.2010.2042139