Home   >   CSC-OpenAccess Library   >    Manuscript Information
Integrated DWDM and MIMO-OFDM System for 4G High Capacity Mobile Communication System
Shikha Nema, Aditya Goel, R.P. Singh
Pages - 132 - 143     |    Revised - 30-10-2009     |    Published - 30-10-2009
Volume - 3   Issue - 5    |    Publication Date - November 2009  Table of Contents
offline signature verification, template matching, hidden markov models
Dense wavelength-division multiplexing (DWDM) technique is a very promising data transmission technology for utilizing the capacity of the fiber. By DWDM, multiple signals (video, audio, data etc) staggered in wavelength domain can be multiplexed and transmitted down the same fiber. The Multiple-input multiple-output (MIMO) wireless technology in combination with orthogonal frequency division multiplexing (MIMO-OFDM) is an attractive air-interface solution for next-generation wireless local area networks (WLANs) and fourth-generation mobile cellular wireless systems. This article provides an overview of the integrated DWDM MIMO-OFDM technology and focuses on DWDM transmitter design with adequate dispersion compensation for high data rate of 10Gbps ,MIMO-OFDM system design, space-time coded signaling, receiver design and performance analysis in terms of bit error rate for Integrated system. The simulation is carried out using powerful software tools Optisystem and MATLAB . In this paper a 64 channel DWDM system is simulated for transmission of baseband NRZ signal over fiber. Each of the transmission is at bit rate of 10 Gbps leading to high data rate transmission of 640 Gbps.The resultant Bit Error Rate(BER) is in the range 10-12 for DWDM system which is given as input to MIMO-OFDM system..This system performance is analyzed in terms of BER with SNR for Rayleigh, and AWGN channels and BER of 10-4 is achieved at SNR of 10dbs
CITED BY (11)  
1 Lenin, S., & Malarkkan, S. (2014).An extensive review of significant researches on channel estimation in mimo-ofdm. journal of theoretical & applied information technology, 64(2).
2 Patnaik, B., & Sahu, P. K. (2013).Ultra high capacity 1.28 Tbps DWDM system design and simulation using optimized modulation format. Optik-International Journal for Light and Electron Optics, 124(13), 1567-1573.
3 Kumar, S., & Singh, H. (2012). Transmission Performance 64× 10 Gb/s WDM system based on optical hybrid amplifiers Using RZ-Soliton modulation format at different transmission distance. IOSR Journal of Engineering, 2(7), 7-12.
4 Capua, A., Saal, A., Reithmaier, J. P., Yvind, K., & Eisenstein, G. (2011, September). Two photon induced lasing in 1550 nm quantum dash optical gain media. In European Conference and Exposition on Optical Communications (pp. Tu-6). Optical Society of America.
5 Patnaik, B., & Sahu, P. K. (2011, February). Long-haul 64-channel 10-Gbps DWDM system design and simulation in presence of optical Kerr's effect. In Proceedings of the 2011 International Conference on Communication, Computing & Security (pp. 62-66). ACM.
6 Li, Y., Kaur, B., & Andersen, B. (2011). Denial of Service Prevention for 5G. Wireless Personal Communications, 57(3), 365-376.
7 Othman, M. B., Deng, L., Pang, X., Caminos, J., Kozuch, W., Prince, K., ... & Monroy, I. T. (2011).MIMO-OFDM WDM PON with DM-VCSEL for femtocells application. Optics express, 19(26), B537-B542.
8 Binti Othman, M., Deng, L., Pang, X., Caminos, J., Kozuch, W., Prince, K., ... & Tafur Monroy, I. (2011, September). Directly-Modulated VCSELs For 2X2 MIMO-OFDM Radio Over Fiber In WDM PON. In European Conference and Exposition on Optical Communications (pp. We-10). Optical Society of America.
9 Othman, M., Lei, D., Xiaodan, P., Caminos, J., Kozuch, W., Prince, K., ... & Tafur Monroy, I. (2011). Directly-modulated VCSELs for 2x2 MIMO-OFDM radio over fiber in WDM-PON.
10 Uddin, M. N., & Saha, A. K. (2010). Transmission Performance Analysis of Long-Haul WDM Network Employing Single Mode Fiber, Dispersion Compensating Fiber and Erbium Doped Fiber Amplifier. The AIUB Journal of Science and Engineering.
11 Goel, A., Gond, V. J., Sethi, R. K., & Singh, A. K. (2010). Performance Analysis of Continuous wavelength optical Burst switching networks. International Journal of Engineering, 3(6), 609.
1 Google Scholar 
2 ScientificCommons 
3 Academic Index 
4 CiteSeerX 
5 refSeek 
6 iSEEK 
7 Socol@r  
8 ResearchGATE 
9 Bielefeld Academic Search Engine (BASE) 
10 Scribd 
11 WorldCat 
12 SlideShare 
14 PdfSR 
15 Search-Docs 
A. J. Paulraj, R. U. Nabar, and D. A. Gore, Introduction to Space-Time Wireless Communications, Cambridge, UK: Cambridge Univ. Press, 2003.
Aditya Goel and A. Sharma,”Performance Analysis of Mobile Ad-hoc Network using AODV protocol”, International Journal of Computer Science and Security, Vol. 3(5),2009
Aditya Goel and Ravi Shankar Mishra “Remote Data Acquisition using Wireless SCADA System”, International Journal of Engineering, Volume 3 (1),pp.58-65, 2009
Aditya Goel, R K Sethi “ Integrated Optical wireless network for next generation Wireless Systems” , Signal Processing – An International Journal Volume 3 (1), pp.1-13, 2009
D.Wake, L.Noe1, D.G.Moodie, D.D.Marcenac, L.D.Westbrook and D.Nesset “A 60 GHz 120 Mbps QPSK fiber-radio transmission experiment incorporating an electroabsorption modulator transceiver for a full duplex optical data path”IEEE 1997 MTT-S Digest
Fariborz Mousavi Madani and Kazuro Kikuchi,” Design Theory of Long-Distance WDM Dispersion-Managed Transmission System” ,Journal of lightwave technology, volume 17( 8) pp1326-1335 , August 1999
Foschini, “Layered space time Architecture for wireless communication”, Bell labs Tech Journal Vol 1,1996
G. Lenz, B. J. Eggleton, C. R. Giles, C. K. Madsen, and R. E. Slusher,” Dispersive Properties of Optical Filters for WDM Systems” IEEE journal of quantum electronics, volume 34( 8) August 1998 pp1390-1402
Markku Juntti, Mikko Vehkapera, Jouko Leinonen, Zexian Li,and Djordje Tujkovic “MIMO MCCDMA communications for future cellular systems”, IEEE Communication Magazine, Feb 2005.
Rane Manzoor, Regina Gani, Varun Jeoti, Nidal kamal, Muhammad Asif , “ Dwpt based FFT and its application to SNR estimation in OFDM systems” Signal Processing– An International Journal Volume 3 (2) , 2009
S.Almouti, “ A simple transmit diversity technique for wireless communication” IEEE journal on select areas in communications, Oct 1998
T. Rappaport “Wireless Communication” 2nd edition ,Prentice Hall Publication December 2001
V Tarokh, Hamid Jafarkhani and A Robert Calderbank , “Space time Block Coding for wireless Communications :Performance Results” IEEE Journal on Selected Area in Communications, volume 17(3) March 1999
Volkan Kaman, Xuezhe Zheng, , Shifu Yuan, Jim Klingshirn, Chandrasekhar Pusarla, Roger Helkey, Olivier Jerphagnon, and John E. Bowers, “A 32 10 Gb/s DWDM Metropolitan Network Demonstration Using Wavelength-Selective Photonic Cross-Connects and Narrow-Band EDFAs” IEEE Photonics Technology letters, volume 17( 9) september 2005
Zhang Dechao, Li Xiaolin, Zhang Xiaoru, Wang Ziyu, Xu Anshi Chen Zhangyuan, Li Hongbin, Li Zhengbin, “43 Gb/s DWDM Optical Transmission System Using NRZ Format and Electroabsorption Modulation” IEEE 2006
Mr. Shikha Nema
M.A.N.I.T., BHOPAL - India
Dr. Aditya Goel
- India
Professor R.P. Singh
M.A.N.I.T., BHOPAL - India