Performance Evaluation of Image Transmission over Physical Layer Of IEEE 802.16d with Antenna Diversity Scheme
Research Paper | Journal Paper
Vol.2 , Issue.12 , pp.132-136, Dec-2014
Abstract
The image is becomes a fundamental data for communication which needs high data rate for transmission. The image transmission over wireless communication system suffers from distortion due to the adverse effect of channel. In Multiple-Input Multiple-Output based wireless system is a promising high data rate interface technology and wireless multipath fading. In a method based on Space-Time Block Coding (STBC) with Multiple-Input Multiple-Output set-up for use in wireless channels. A comparison is made between the diversity gain of MIMO systems in terms of BER for High QAM modulation scheme. In this paper, performance of WIMAX physical layer is simulated and bit error rate (BER) performance is observed. In BER level is depend on the modulation type, then SNR value and channel behavior. The Modulation schemes that we have used in this paper are QPSK, QAM-8 and QAM-16 which further improved using MIMO technique. The poor bit error ratio (BER) at receiver also calculated as poor PSNR with received image. The results have been shown in the paper for the simulation over various diversity.
Key-Words / Index Term
WiMAX, OFDM (Orthogonal Frequency Division Multiplexing), MIMO, QAM (Quadrature Amplitude Modulation), AWGN
References
[1] L. J. Cimini, “Analysis and simulation of a digital mobile channel using orthogonal frequency division multiplexing”, IEEE Transaction on Communications, Vol. 33, Issue 7, pp. 665–675, July 1985.
[2] Roger B. Marks, Ken Stanwood and Chang IEEE Standard for Local and Metropolitan Area Networks Part16: Air Interface for Fixed Broadband Wireless Access Systems”, IEEE 802.16-2004, 1 October, 2004
[3] G. Ganesan and P. Stoic a. 2001. “Space-time block codes: a maximum SNR approach”, IEEE Transactions on Information Theory, Vol. 47, Issue 4, May 2001, pp. 1650–1656.
[4] A. Tarighat and A. H. Sayed, “MIMO OFDM receivers for systems with IQ imbalances,” IEEE Transactions on Signal Processing, Vol. 53, Issue 9, pp. 3583–3596, September 2005.
[5] P. S. Mundra, T. L. Singal and R. Kapur, “The Choice of A Digital Modulation,Schemes in A Mobile Radio System”, IEEE Vehicular Technology Conference, Issue 5, pp 1-4,1993.
[6] A. Mraz and L. Pap, “General Performance Analysis of M-PSK and M-QAM Wireless Communications Applied to OFDMA Interference”, IEEE Wireless Telecommunication symposium, Issue 4, pp 1-7, 2010.
[7] S. Moghe and R. Upadhyay, “Comparison of SISO and MIMO Techniques in 802.11n Wireless Local Area Network”, International Conference on Emerging Trends in Electronic and Photonic Devices & Systems, pp 245-246, 2009
[8] A Channel Estimation Method for MIMO-OFDM Mobile WiMax Systems
[9] M. M. Avval, C. Snow and L. Lampe, “Error-Rate Analysis for Bit-Loaded Coded MIMO-OFDM”, IEEE Transaction on Vehicular Technology, Vol. 59, Issue 5, pp 2340- 2351, 2010.
[10] Y. Huang, B. Pei, and H. Zhang, “System Performance Research and Analysis of MIMO OFDM Based on Space-Time Block Codes”, International Conference on Intelligent Control and Information Processing, pp 414-417, 2010.
[11] X. Zhang, Y. Su and G. Tao, “Signal Detection Technology Research of MIMO-OFDM System”, 3rd International Congress on Image and Signal Processing, pp 3031-3034, 2010.
[12] Contemporary Engineering Sciences, Vol. 5, 2012, no. 8, 365 – 374
[13] R. Y. Mesleh, H. Haas, S. Sinanovic, C. W. Ahn and S. Yun, "Spatial modulation”, IEEE Transaction on Vehicular Technology, Vol. 57, Issue 4, pp. 2228-2241, July 2008.
[14] MIMO-OFDM modem for WLAN by, Authors: Lisa Meilhac, Alain Chiodini, Clement Boude socque, ChrislinLele, Anil Gercekci.
[15] http://www.wirelesscommunication.nl/reference/chaptr05/digimod/awgn.htm
[16] Performance Evaluation of M-ary Frequency Shift Keying Radio Modems via Measurements and Simulations Submitted by ERIC NII OTORKUNOR SACKEY, September 2006
Citation
Apoorva Nayak and Rahul Sharma, "Performance Evaluation of Image Transmission over Physical Layer Of IEEE 802.16d with Antenna Diversity Scheme," International Journal of Computer Sciences and Engineering, Vol.2, Issue.12, pp.132-136, 2014.