Hybrid OFDM RoF-Based WDM-PON/MMW Backhaul Architecture For Heterogeneous Wireless Networks

Trang Thi Thu Ngo, Thu Anh Pham, Nhan Duc Nguyen, Ngoc The Dang

Abstract


In this paper, a hybrid backhaul architecture, which is based on wavelength-division multiplexing passive optical networks (WDM-PON) and millimeter-wave (MMW) communications, is proposed to deliver orthogonal frequency-division multiplexing (OFDM) signals in heterogeneous wireless networks. MMW radio-over-fiber (RoF) technique, which combines the advantages of the both optical fiber and wireless communications, is used to simplify the base stations and provide flexibility long reach and high capacity connections. The feasibility of the proposed hybrid backhaul architecture is investigated via the bit-error rate (BER) performance of a downlink under the impacts of fiber nonlinear, wireless fading and noise components including clipping noise, amplifier noise and photodetector noise. The numerical results obtained from this study help to determine the optimum system parameters such as the optical launched power, modulation index, and amplifier gain so as to minimize the link’s BER.

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References


T. S. Rappaport, S. Shu, R. Mayzus, H. Zhao, Y. Azar, K. Wang, G. N. Wong, J. K. Schulz, M. Samimi, F. Gutierrez, “Millimeter wave mobile communications for 5G cellular: It will work!,” IEEE Access, vol. 1, pp. 335–349, 2013.

C. X. Wang, F. Haider, X. Gao, X. H. You, “Cellular architecture and key technologies for 5G wireless communication networks” IEEE Communications Magazine, vol. 52, no. 2, pp. 122–130, 2014.

X. Ge, H. Cheng, M. Guizani and T. Han, “5G wireless backhaul networks: challenges and research advances,” IEEE Network, vol. 28, no. 6, pp. 6–11, Nov.-Dec. 2014.

H. Le Bras and M. Moignard, “Distribution of 3G base stations on passive optical network architecture,” in Proc. Int. Topical Meeting Microw. Photon., 2006, pp. 1–4.

E. Mallette, “Mobile Backhaul for PON: A case study,” in Proc. Nat. Opt. Fiber Eng. Conf., Los Angeles, CA, USA, 2012, paperNTh4E.4.

Vikas Kumar Pandey, Sanjeev Gupta, Bharti Chaurasiya, “Performance analysis of WDM PON and ROF Technology in optical communication based on FBG,” International Journal of Engineering Research, vol. 3, iss. 10, 2014.

Tong Shao, Flora Parsys, Yannis Le Guennec, “Convergence of 60 GHz radio over fiber and WDM-PON using parallel phase modulation with a single MachZehnder modulator,” IEEE J. of Light Technol., vol. 30, no. 17, September 2012.

J. Armstrong, B. Schmidt, D. Kalra, J. Suraweera, and A. Lowery, “Performance of asymmetrically clipped optical OFDM in AWGN for an intensity modulated direct detection system” in Proc. of the IEEE Global Communications Conference (GLOBECOM), 2006.

S. Dimitrov and H. Haas, “On the clipping noise in an ACO-OFDM optical wireless communication system” in Proc. of the IEEE Global Communications Conference (GLOBECOM), 2010.

G.P. Agrawal, Fiber-Optic Communication Systems, John Wiley & Sons, Third Edition, 2002. ISBNs: 0-471-21571-6 (Hardback); 0-471-22114-7 (Electronic).

T. M. F. Alves and A. V. T. Cartaxo, “Analytical characterization of four wave mixing effect in direct-detection double-sideband OFDM optical transmission systems” OSA Optics Express, vol. 22, pp. 8598–8616, 2014.

D. Uzunidis, C. Matrakidis and A. Stavdas, “Simplified model for nonlinear noise calculation in coherent optical OFDM systems” OSA Optics Express, vol. 22, pp. 28316–28326, 2014.

G.P. Agrawal, Nonlinear Fiber Optics, Academic Press, Third Edition, 2001.

C. Milorad, B. D. Ivan, Advanced Optical Communication Systems and Networks, Artech House Applied Photonics, 2013.

T. A. Pham, H. T. T Pham, L. T. Vu, and N. T. Dang, “Effects of noise and distortion on performance of OFDM millimeter-wave RoF

systems,” in Proc. IEEE/NAFOSTED Conference on Information and Computer Science (NICS 215), pp. 153–157, 2015.

S. Rajagopal, S. Abu-Surra, M. Malmirchegini, “Channel Feasibility for Outdoor Non-Line-of-Sight mmWave Mobile Communication,” in Proc. Vehicular Technology Conference (VTC Fall), 2012.

Q. Jian, S. Xuemin, W. M. Jon, S. Qinghua, H. Yejun, and L. Lei, “Enabling Device-to-Device Communications in Millimeter-Wave 5G Cellular Networks,” IEEE Communications Magazine, vol. 53, pp. 209–215, 2015.

G. Carl, “60 GHz Wireless Propagation Channels: Characterization, Modeling and Evaluation” Lund University, Doctoral thesis, 2014.

H. Yu-Ting, “Frontiers of optical networking technologies: millimeter-wave radio over fiber and 100G transport system for next generation high data rate applications,” Georgia Institute of Technology, Doctoral thesis, 2012.

K. Mikko, “Radio wave propagation and antennas for millimeter-wave communications,” Aalto University publication series, Doctoral dissertation, 2012.

K. S. Marvin and A. Mohamed-Slim, Digital Communication over Fading Channels, John Wiley & Sons, Inc., 2005.

Thu A. Pham, Hien T. T. Pham, Hai-Chau Le, and Ngoc T. Dang, “Numerical Analysis of the Performance of Millimeter-wave RoF-based Cellular Backhaul Links” Journal of Optical Communications, vol. 38, iss. 3, pp. 309-318, Aug. 2017.

J.G. Proakis, Digital Communications, 3rd ed., McGrawHill: Singapore, 1995.




DOI: http://dx.doi.org/10.21553/rev-jec.150

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