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Reseach Article

Design, Simulation and Performance Evaluation of 4 x 4 MIMO Transceiver System using 16 QAM

Published on June 2013 by Rajesh Bansode, Prajakta Sarode, B. K. Mishra
International Conference and workshop on Advanced Computing 2013
Foundation of Computer Science USA
ICWAC - Number 1
June 2013
Authors: Rajesh Bansode, Prajakta Sarode, B. K. Mishra
295d0a9f-6b60-4827-946a-aeef16e3b4dc

Rajesh Bansode, Prajakta Sarode, B. K. Mishra . Design, Simulation and Performance Evaluation of 4 x 4 MIMO Transceiver System using 16 QAM. International Conference and workshop on Advanced Computing 2013. ICWAC, 1 (June 2013), 0-0.

@article{
author = { Rajesh Bansode, Prajakta Sarode, B. K. Mishra },
title = { Design, Simulation and Performance Evaluation of 4 x 4 MIMO Transceiver System using 16 QAM },
journal = { International Conference and workshop on Advanced Computing 2013 },
issue_date = { June 2013 },
volume = { ICWAC },
number = { 1 },
month = { June },
year = { 2013 },
issn = 2249-0868,
pages = { 0-0 },
numpages = 1,
url = { /proceedings/icwac/number1/477-1307/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference and workshop on Advanced Computing 2013
%A Rajesh Bansode
%A Prajakta Sarode
%A B. K. Mishra
%T Design, Simulation and Performance Evaluation of 4 x 4 MIMO Transceiver System using 16 QAM
%J International Conference and workshop on Advanced Computing 2013
%@ 2249-0868
%V ICWAC
%N 1
%P 0-0
%D 2013
%I International Journal of Applied Information Systems
Abstract

The frequency spectrum has become scarce and an expensive resource limiting the bandwidth. The future systems need to be characterized by significantly enhanced spectral efficiency in order to increase link throughput and network capacity. In order to achieve high throughput and network capacity the best approach for real time application would be combining MIMO wireless technology with OFDM for next generation wireless local area networks. In the current paper a high level Matlab Simulink 4 x 4 spatially multiplexed MIMO OFDM transceiver encoded at ½ rate using 64 size FFT is designed and implemented.

References
  1. R. Deepa, Iswarya S, G. DivyaShri, P. MahathiKeshav, P. JaganyaVasan, SenthilMurugan. S "Performance of Possible Combinations of Detection Schemes with V-BLAST for MIMO OFDM Systems," in IEEE pp. 140-144. 978-1-4244-8679-3/11. Coimbatore, India. 2011.
  2. A. Moldovan, T. Palade, A. Pistea, E. Puschita, R. Colda, I. Verme?an, C. Androne "Spatial Multiplexing and Diversity in a MIMO Based WLAN System," in IEEE pp. 355-358, Cluj-Napoca, Romania 2010.
  3. T. E. V. Vamsee Krishna and G TejaRavishankar "Enhancing MIMO features for OFDM," in IEEE 978-1-4244-6589-7/10, ICCCN 2010.
  4. "System Generator for DSP" Getting started guide UG639 (v 12. 3) September 21, 2010.
  5. SalwaSeragEldin, Mohamed Nasr, Salah Khamees,EssamSourour, and Mohamed Elbanna "LDPC coded MIMO OFDM-Based IEEE 802. 11n Wireless LAN," in IEEE 978-1-4244-3474-9/09, Egypt, 2009.
  6. SimonHaene, David Perels and Andreas Burg "A Real Time 4-Stream MIMO-OFDM Transceiver: System Design, FPGA Implementation, and Characterization," in IEEE Jour. Vol 26, No 6, pp. 877-889, 2008.
  7. Zoha Pajoudi, et. al. , "Hardware Implementation of a 802. 11n MIMO OFDM Transceiver," in IEEE Jour. 978-1-4244-2750-5. 2008.
  8. Yu Wei Lin Chen Yi Lin, "Design of FFT/IFFT Processor for MIMO OFDM Systems," IEEE Transaction on circuit and system, Vo1. 54, no. 4 pp. 807-815, 2007.
  9. Shingo Yoshizawa, Yoshikazu Miyanaga, Hiroshi Ochit, Yoshio Ithol, Nobuo Hataoka, Baiko Sail, NorihisaTakayamall, and Masaki Hirata "300-Mbps OFDM Baseband Transceiver for Wireless LAN Systems," in proc. of ISCAS, pp. 5455-5458, 2006.
  10. Chetty Garuda, Mohammed Ismail, "A Multi-Standard OFDM-MIMO Transceiver for WLAN Applications," in IEEE pp. 1613-1616, Columbus, OH, USA, 2005.
  11. Arogyaswami J. Paulraj, Dhananjay A. Gore, Rohit U. Nabar, and Helmut Bolcskei, "An Overview of MIMO Communications—A Key to Gigabit Wireless," in IEEE proc. Vol. 92, No. 2, 2004.
  12. Angela Doufexi, Arantxa Prado Miguelez, Simon Armour, Andrew Nix and Mark Beach "Use of Space Time Block Codes and Spatial Multiplexing using TDLS Channel Estimation to Enhance the Throughput of OFDM based WLANs," in IEEE VTC 704-708, UK, 2003.
  13. D. Getsberg, et. al. , " From theory to practice: An overview of MIMO space-time coded wireless systems," in IEEE Jour. Sel. Areas in Commun. ,vo1. 21, no. 38 pp. 281-301, 2003.
  14. "Spatial multiplexing" available at: http://en. wikipedia. org/wiki/Spatial_multiplexing
  15. Xilinx "DSP Design Flow Lab Manual" V 12. 3 System Generator Targeting Atlys Board.
  16. "Simulation of OFDM system in Matlab – BER Vs Eb/N0 for OFDM in AWGN channel" available at: http://www. gaussianwaves. com/2011/07/simulation-of-ofdm-system-in-Matlab-ber-vs-ebn0-for-ofdm-in-awgn-channel
Index Terms

Computer Science
Information Sciences

Keywords

Space Time Block Code Spatial Multiplexing Matlab Simulink