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Peak-to-Average Power Ratio Analysis for Golden Coded MIMO Systems

by Mohamed L. Ammari, Anis Bdiri
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 52 - Number 6
Year of Publication: 2012
Authors: Mohamed L. Ammari, Anis Bdiri
10.5120/8208-1616

Mohamed L. Ammari, Anis Bdiri . Peak-to-Average Power Ratio Analysis for Golden Coded MIMO Systems. International Journal of Computer Applications. 52, 6 ( August 2012), 32-38. DOI=10.5120/8208-1616

@article{ 10.5120/8208-1616,
author = { Mohamed L. Ammari, Anis Bdiri },
title = { Peak-to-Average Power Ratio Analysis for Golden Coded MIMO Systems },
journal = { International Journal of Computer Applications },
issue_date = { August 2012 },
volume = { 52 },
number = { 6 },
month = { August },
year = { 2012 },
issn = { 0975-8887 },
pages = { 32-38 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume52/number6/8208-1616/ },
doi = { 10.5120/8208-1616 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T20:51:35.720849+05:30
%A Mohamed L. Ammari
%A Anis Bdiri
%T Peak-to-Average Power Ratio Analysis for Golden Coded MIMO Systems
%J International Journal of Computer Applications
%@ 0975-8887
%V 52
%N 6
%P 32-38
%D 2012
%I Foundation of Computer Science (FCS), NY, USA
Abstract

The combination of the orthogonal frequency-division multiplexing (OFDM) technique and the multiple-input multiple-output (MIMO) architecture has emerged as a promising candidate for future wireless communications. The Space-time block coding (STBC) technique permits to fully take advantage of MIMO-OFDM systems and to effectively improve the channel capacity and the spatial diversity. The Golden Code (GC) is a full-rate and full-diversity, space-time code for 2 × 2 MIMO systems. Thanks to its algebraic construction, the GC achieves Diversity-Multiplexing gain trade-off and preserves the mutual information. However, it is well known that STBC-MIMO-OFDM systems are sensitive to the high Peak-to-Average-Power Ratio (PAPR) of the transmitted signals. The purpose of this paper is to analyze the PAPR of golden coded MIMO-OFDM systems. We investigate the effect of the roll-off factor on the PAPR characteristics and analyze the system performances.

References
  1. J. Bingham, "Multicarrier modulation for data transmission: An idea whose time has come", IEEE Commun. Mag. , pp. 5-14, May 1990.
  2. G. Foschini, "Layered space-time architecture for wireless communication in a fading environment when using multiple antenna elements", Bell Labs Techn. J. , vol. 1, pp. 41-59, Sept. 1996.
  3. S. M. Alamouti, "A simple transmitter diversity scheme for wireless communications", IEEE J. Select. Areas Commun. , vol. 16, pp. 1451-1458, Oct. 1998.
  4. V. Tarokh, H. Jafarkhani, and A. R. Calderbank, "Space-time block codes from orthogonal designs", IEEE Trans. Inform. Theory, vol. 45, pp. 1456-1467, July 1999.
  5. B. A. Sethuraman, B. S. Rajan, and V. Shashidhar, "Full-diversity, high-rate space-time block codes from division algebras", IEEE Trans. Inf. Theory, vol. 49, pp. 2596-2616, Oct. 2003.
  6. H. El Gamal, and M. O. Damen, "Universal space-time coding", IEEE Trans. Inf. Theory, vol. 49, pp. 1097-1119, May 2003.
  7. J. C. Rekaya, G. Viterbo, and E. Bel?ore, "The golden code: a 2x2 full-rate space-time code with nonvanishing determinants", IEEE Trans. Inf. Theory, vol. 51, pp. 1432-1436, Apr. 2005.
  8. IEEE Standard for local and metropolitan area networks, "Part 16 : Air Interface for Fixed and Mobile Broadband Wireless Access Systems Amendment 2 : Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands", Feb. 2006.
  9. A. Bannour, M. L. Ammari, Y. Sun, and R. Bouallegue, "The Capacity Performance of ASTC-MIMO-OFDM System in a Correlated Rayleigh Frequency-Selective Channel", Wireless Personal Communications, vol. 65, pp. 1-12, Feb 2012.
  10. A. Bannour, Y. Sun, M. L. Ammari, F. Delestre, and R. Bouallegue, "A Novel Algebraic Carrier Frequency Offset Estimator for ASTC-MIMO-OFDM Systems over a Correlated Frequency Selective Channels", IEEE Trans. Vehic. Techno. , vol. 61, pp. 2468-2475, May 2012.
  11. B. Rihawi and Y. Louet, "Peak to Average Power Ratio analysis in MIMO systems", Proc. Info. and Commu. Technologies, 2006.
  12. Y. Louet and S. Hussain, "Peak-to-Mean Envelope Power Ratio Statistical Analysis of Continuous OFDM Signal", Proc. IEEE Vehicular Technology Conf. , 2008.
  13. A. E. Jone, T. A. Wilkinson, and S. K. Barton, "Block coding scheme for reduction of peak to mean envelope power ratio of multicarrier transmission schemes", Electron. Lett. , vol. 30, pp. 2098-2099, Dec. 1994.
  14. S. H. Muller and J. B. Huber, "OFDM with reduced peak-to-average power ratio by optimum combination of partial transmit sequences", Electron. Lett. , vol. 33, pp. 368-369, Feb. 1997.
  15. R. W. Bauml, R. F. H. Fischer, and J. B. Huber, "Reducing the peak-to-average power ratio of multicarrier modulation by selected mapping", Electron. Lett. , vol. 32, pp. 2056-1257, Oct. 1996.
  16. L. J. Cimini and N. R. Sollenberger, "Peak-to-average power ratio reduction of an OFDM signal using partial transmit sequences", IEEE Commun. Lett. , vol. 4, pp. 86–88, Mar. 2000.
  17. Y. -L. Lee, Y. -H. You, W. -G. Jeon, J. -H. Paik, and H. -K. Song, "Peak-to-Average Power Ratio in MIMO-OFDM Systems Using Selective Mapping", IEEE Commun. Lett. , vol. 7, pp. 575-577, Dec. 2003.
  18. J. Tellado and J. M. Ciof?, "Multicarrier Modulation With Low PAR, Application to DSL and Wireless", MA: Kluwer Academic Publisher, 2000.
  19. B. S. Krongold and D. L. Jones, "PAR reduction in OFDM via active constellation extension", IEEE Trans. Broadcast. , vol. 49, pp. 258-268, Sep. 2002.
  20. D. Wulich and L. Goldfeld, "Reduction of peak factor in orthogonal multicarrier modulation by amplitude limiting and coding", IEEE Trans. Commun. , vol. 47, pp. 18-21, Jan. 1999.
  21. A. Jayalath and C. Tellambura, "Reducing the peak-to-average power ratio of orthogonal frequency division multiplexing signal through bit or symbol interleaving", Electron. Lett. , vol. 36, pp. 1161-1163, Jun. 2000.
  22. H. Ochiai and H. Imai, "Peak-Power Reduction schemes in OFDM systems: a review", Proc. Intern. Sympos. on Wireless Personal Multimedia Commun. , Nov. 1998.
  23. R. Van Nee and A. De Wild, "Reducing the Peak to Average Power ratio of OFDM", Proc. IEEE Vehicular Technology Conf. , 1998.
  24. H. -B. Jeon, J. -S. No, and D. -J. Shin, "A Low-Complexity SLM Scheme Using Additive Mapping Sequences for PAPR Reduction of OFDM Signals", IEEE Trans. Broadcast. , vol. 57, pp 866-874, Dec. 2011.
  25. B. Rihawi and Y. Louet, "PAPR Reduction Scheme with SOCP for MIMO-OFDM Systems", Inter. J. Commun. , Network and System Sciences, pp. 29-35, Jan. 2008.
  27. H. Ochiai and H. Imai, "On the distribution of the peak to average power ratio in OFDM signals", IEEE Trans. Commun. , vol. 49, pp. 282-289, Feb. 2001.
Index Terms

Computer Science
Information Sciences

Keywords

MIMO OFDM PAPR Golden Code

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