Performance Evaluation and Comparison Between LDPC and Turbo Coded MC-CDMA
محتوى المقالة الرئيسي
الملخص
This work presents a comparison between the Convolutional Encoding CE, Parallel Turbo code and Low density Parity Check (LDPC) coding schemes with a MultiUser Single Output MUSO Multi-Carrier Code Division Multiple Access (MC-CDMA) system over multipath fading channels. The decoding technique used in the simulation was iterative decoding since it gives maximum efficiency at higher iterations. Modulation schemes used is Quadrature Amplitude Modulation QAM. An 8 pilot carrier were
used to compensate channel effect with Least Square Estimation method. The channel model used is Long Term Evolution (LTE) channel with Technical Specification TS 25.101v2.10 and 5 MHz bandwidth bandwidth including the channels of indoor to outdoor/ pedestrian channel and Vehicular channel. The results showed that the performance of the proposed system was better when the LDPC was used as a coding technique
تفاصيل المقالة
كيفية الاقتباس
تواريخ المنشور
المراجع
J Rodriguez, D. T. Phan Huy et al. , “Radio Link Layer Design for IST MATRICE project”, IST Mobile and Wirless Communication Summit 2003, vol II pp847.
D. Mottier et al. “Physical Layer Simulation Chain Description”, IST-2001-32620 MATRICE, D3.1, Nov. 2002.
D. T. Phan Huy et al.,”Specification of the performance evaluation methodology and the target performance”,IST-2001-32620 MATRICE, D1.3, Jan. 2003.
Ivan Cosovic, Michael Schnell, “Time Division Duplex MC-CDMA for Next Generation Mobile Radio Systems”, 10th
Telecommunications forum TELFOR'2002,
Belgrade, Yugoslavia, Nov. 26-28, 2002. Shinsuke Hara and Ramjee Prasad, “ Overview of multicarrier CDMA” IEEE Communications Magazine, December 1997.
Husam A. Mohammed, “TURBO CODE MCCDMA Combination Performance Over Multipath Rayleigh Fading Channel, Journal of Engineering, V.15, No.3, 2010.
Aqiel N. Almaamory,“LDPC Coded Multiuser MC-CDMA Performance Over Multipath Rayleigh Fading”, to be published
Ramasmay K., Mohammed U. S., mohammed Y. A. and A. Arunagiri, " Performance comparison of convolutional and block codes",IEICE Electronic Express, V. 3, N. 13, pp, 322-327, 2006.
Shanmugam A., A. R. Abdul Rajak, "Optimal design of forward error correcting codes for wireless communication", Academic open Internet journal, V. 14, 2005,http://www.acadjournal.com/.
Vogt J., K. KOORA, A. FINGER and G.FETTWEIS: "Comparison of Different Turbo Decoder Realizations for IMT-2000", in Proc.of the IEEE GLOBECOM '99, Rio de Janeiro,Dec. 1999, pp. 2704-2708.
Robertson P., E. Villebrun, and P. Hoeher, “A Comparison of Optimal and Sub-Optimal MAP Decoding Algorithms Operating in the Log Domain”, Proceedings of the 1995 International Conference on Communications (ICC’95),Seattle, WA, USA, pp. 1009-1013, June 1995.
Robertson, P. Hoeher, and E. Villebrun,“Optimal and Sub-Optimal Maximum a Posteriori Algorithms Suitable for Turbo Decoding”, IEEE Communications Theory, Vol.8, No. 2, pp. 119-125, March-April 1997.
G. D. Forney Jr., Concatenated Codes, MIT Press, Cambridge, Mass,1966.
Sergio, Dariush Divsalar, Guido Montorsi and Fabrizio Pollara, "Serial concatenation of Interleaved Codes: Performance Analysis,
Design, and Iterative Decoding", IEEE Transactions on information theory, V. 44, No.3, May 1998.
D. J. C. MacKay, R. M. Neal, "Good ErrorCorrecting Codes based on Very Sparse Matrices", IEEE Trans. Inform. Theory, vol. 45, pp. 399-431, Mar. 1999.
T. Richardson, A. Shokrollahi, R. Urbanke, "Design of Provably Good Low Density ParityCheck Codes", IEEE Trans. Inform. Theory, pp.199, 25-30 June 2000.
F. R. Kschischang, B. J. Frey, H. A. Loeliger,"Factor Graphs and the Sum-Product algorithm", IEEE Transactions on Information Theory, vol. 47, Issue 2, pp. 498-519, Feb.2001.
Luis Alberto Paredes Hernández and Mariano García Otero” A New LDPC-STB Coded MCCDMA Systems with SOVA-Based Decoding and SOFT- NterferenceCancellation”, 14th European Signal Processing Conference (EUSIPCO 2006), Florence, Italy, September 4- 8, 2006, copyright by EURASIP