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Tytuł artykułu

Cooperative MIMO OFDM system based on Amplify and Forward Relay: Evaluation of ZF-SIC and MMSE-SIC equalization

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Warianty tytułu
PL
Kooperacyjny system komunikacji bezprzewodowej MIMO OFDM bazujący na układzie Forward Relay: ocena ekwalizacji ZF-SIC i MMSE-SIC
Języki publikacji
EN
Abstrakty
EN
In the world of wireless communication, cooperative communication is a modern and unprecedented approach which enables wireless nodes to transfer the information in a cooperative manner and finally to reach the destination without least possible deterioration. Orthogonal frequency division multiplexing (OFDM) can provide high data rate and better performance and a combination of OFDM and cooperative communication may push a wireless network forward to its next generation with enhanced reliability and efficiency. In this work, we develop a mathematical model for cooperative multiple input multiple output (MIMO) OFDM system. Results are achieved in the study to evaluate and compare bit error rate (BER) for different detection schemes. Based on the results it can be mentioned that the performance of cooperative MIMO-OFDM with space time block code (STBC) under amplify and forward (AF) relay for the MMSE-SIC detection scheme was found very satisfactory with improved signal to noise ratio (SNR).
PL
W artykule przedstawiono model matematyczny kooperacyjnej komunikacji bezprzewodowej wiele wejść, wiele wyjść (MIMO) z multipleksingiem i ortogonalnym podziałem częstotliwości (OFDM). Określono współczynnik BER (bit error rate) dla różnych metod detekcji. Najlepsze parametry otrzymano dla systemu STBC (space time block code).
Rocznik
Strony
75--79
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
  • Department of EEE, Primeasia University, Banani, Dhaka
autor
  • Department of EEE, Northern University Bangladesh
autor
  • Department of EEE, Northern University Bangladesh
autor
  • Department of EEE, American International University Bangladesh
autor
  • Department of EEE, Northern University Bangladesh
Bibliografia
  • [1] Michalak J., Uljasz B. and Ziółkowski C., “Experimental verification of the MIMO channel simulation model using STBC Alamouti coding”, Przegląd Elektrotechniczny, 89(2013), No. 7, 240-244
  • [2] Wang S. and Nie J., “Energy Efficiency Optimization of Cooperative Communication in Wireless Sensor Networks” EURASIP Journal on Wireless Communications and Networking, 2010(2010)
  • [3] Ikki S. S.and Ahmed M. H. “Performance Analysis of Decodeand- Forward Cooperative Diversity Using Differential EGC over Nakagami-m Fading Channels” IEEE Vehicular Technology Conference, (2009)
  • [4] Meulen E. V. D., “Three-terminal communication channels,” Advances in Applied Probability; 3(1971), 120-154
  • [5] Cover T. M. and El Gamal A. A., “Capacity theorems for the relay channel”, IEEE Trans. Inf. Theory, 25(1979), 572-584
  • [6] M. Janani, A. Hedayat, T. E. Hunter, and A. Nosratinia, “Coded cooperation in wireless communications: space-time transmission and iterative decoding”, IEEE Transactions on Signal Processing, 52(2004), 362-371
  • [7] Laneman J. N., Tse D. N. C., and Wornell G. W., “Cooperative Diversity in Wireless Networks: Efficient Protocols and Outage Behavior”, IEEE Trans. Inf. Theory, 50(2004), No. 12, 3062-3080
  • [8] Nechiporenko T., Phan K. T., Tellambura C., Nguyen H. H., “On the capacity of Rayleigh fading cooperative systems under adaptive transmission”, IEEE Transactions on Wireless Communications; 8(2009), No. 4, 1626–1631
  • [9] Mahinthan V., Rutagemwa H., Mark J. W. and Shen X., “Crosslayer performance study of cooperative diversity system with ARQ”. IEEE Transactions on Vehicular Technology; 58(2009), No. 2, 705–719
  • [10] Hwang K. S., Ko Y. C. and Alouini M. S., “Performance analysis of incremental opportunistic relaying over identically and non-identically distributed cooperative paths.” IEEE Transactions on Wireless Communications, 8(2009), No. 4, 1953–1961
  • [11] Boyer J., Falconer D. D. and Yanikomeroglu H.,” Multihop Diversity in Wireless Relaying Channels,” IEEE Trans. Comm., 52(2004), No. 10,1820-1830
  • [12] Chen D. and Laneman J. N.,” Modulation and Demodulation for Cooperative Diversity in Wireless Systems,” IEEE Trans. Wireless Comm., 5(2006), No. 7, 1785-1794
  • [13] Kumar N. S. and Kumar K. R. S., “Performance Analysis and Comparison of Zero - forcing SIC and MMSE SIC for MIMO Receivers using BSPK and 16- QAM Modulation methods” IJCSET, 1(2011), No. 8, 530-533
  • [14] Vorkoeper S., Lenkeit F., Kuehn V., Wubben D. and Dekorsy A., “Performance Comparison of Distributed IDM-STC versus Cooperative OFDM for practical Decode-and-Forward Relay-Networks” 2012 International ITG Workshop on Smart Antennas (WSA), (2012), 145 – 151
  • [15] Laneman J. N. and Wornell G. W., “Distributed space-time coded protocols for exploiting cooperative diversity in wireless networks”, IEEE Transactions on Information Theory, 49(2003), No., 2415–2425
  • [16] Stefanov A. and Erkip E., “Cooperative coding for wireless networks”, IEEE Transactions on Communications, 52(2004), No. 9, 1470–1476
  • [17] Sreedhar D. and Chockalingam A., “Interference Mitigation in Cooperative SFBC-OFDM”, EURASIP Journal on Advance in Signal Processing, 2008(2008)
  • [18] Chisty K. J. A., Islam S. M. A., Ullah S. E. and Sabuj S. R., “Performance Evaluation of Multiple Amplify and Forward Relayed Cooperative MIMO-OFDM System with Implementation of ZF-SIC and MMSE-SIC Signal Detection Schemes”. Communications in Information Science and Management Engineering, 3(2013), No. 9, 448-454
  • [19] Chisty K. J. A., Islam S. M. A., Ullah S. E. and Sabuj S. R., “Impact of STBC Scheme on BER Performance Assessment of a Single Amplify and Forward Relaying Protocol Based Cooperative MIMO-OFDM System”. International Journal of Hybrid Information Technology, 6(2013), No. 6, 381-388
  • [20] Alamouti S. M., “A simple transmit diversity technique for wireless communications,” IEEE Journal on Selected Areas in Communication, 16(1998),1451-1458
  • [21] Tarokh V., Jafarkhani H., and Calderbank A. R., “Space–Time Block Coding for Wireless Communications: Performance Results”, IEEE Journal on Selected Areas in Communications, 17(1999), No. 3, 451-460
  • [22] Sripathi P. U. and Lehnert J. S., “A throughput scaling law for a class of wireless relay networks,” in Proc. 38th Annual Asilomar Conference on Signals, Systems and Computers, 2(2004), 1333-1337
  • [23] Tang X. and Hua Y., “Optimal waveform design for MIMO relaying” In Proceedings of IEEE 6th Workshop on Signal Processing Advances in Wireless Communications, (2005), 289–293
  • [24] Peter Hong Y. W., Huang W and Jay Kuo C.C. “Cooperative Communications and Networking, Technologies and System Design” Springer Publishing Company, New York, USA, (2010)
  • [25] Cho Y.S., Kim J., Yang W. Y. and Kang C.G., MIMO-OFDM Wireless Communications with Matlab, John Wiley and Sons (Asia) Pte Ltd, Singapore. (2010)
  • [26] Bai L. and Choi J., “Low Complexity MIMO Detection”, Springer Science and Business Media, LLC, New York, USA, (2012)
  • [27] Chisty K. J. A., Islam S. M. A., Ullah S. E. and Sabuj S. R., “Encrypted Color Image Transmission in an Amplify and Forward Relaying Based STBC Encoded Cooperative MIMO OFDM System”. International Journal of Computer Networks and Communications Society”, 1(2013), no. 7, 292-298
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2d50ab0c-be75-4f2b-9712-e95ded8fac08
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