Open Access  Subscription or Fee Access

Next generation services of triple play (data/voice/video) require far more bandwidth than prevailing technologies like dial-up, Integrated Services for Digital Network (ISDN), cable, Digital Subscriber Line (DSL) could offer. The bay between the access and metro networks is broadening due to bandwidth difference. This problem is termed as “access bottleneck”. The challenge is to distribute triple play services efficiently and cost effectively. Passive optical network has addressed these challenges in a most auspicious manner. This paper presents an architecture supporting triple play services. It employs Broadband Passive Optical Network (BPON) within last mile to address the access bottleneck issue. It uses orthogonal frequency division multiplexing (OFDM) for transmission of voice, video and data service. Performance analysis of our proposed architecture using simulation technique shows that the signal power received at the farthest Optical Network Unit (ONU) after passing through a distance of 25km is -25dBm with a satisfactory bit error rate (BER) of 10-3 and a Signal to Noise Ratio for video service, indicating good and clear picture quality. Proposed method not only accomplishes the desired requirement for availing services of data/voice/video (triple play) but also achieves its objective cost effectively.

Broadband Passive Optical Network (BPON), Fiber to the Home (FTTH), Orthogonal Frequency Division Multiplexing (OFDM), PON (Passive Optical Network), Triple Play

Network OS, “Global FTTH-Fibre Networks becoming reality”2007.

P. Shumate, “Fiber-to-the-Home: 1977–2007,” IEEE/OSA J.Lightwave Technol., vol. 26, no. 9, pp. 1093–1103, May 2008.

J. Kani, F. Bougart, A. Cui, A. Rafel, and S. Rodrigues, “Next-generation PON - part I: technology roadmap and general requirements,” IEEE Commun. Mag., vol. 47, no. 11, pp. 43–49, Nov. 2009.

Muneer Zuhdi, "Next Generation Triple Play Access Network Feasibility and Challenges", IEEE2006

W. Shieh and I. Djordjevic, OFDM for Optical Communications. San Diego, USA: Academic Press - Elsvier, 2010.

K. Ohara, A. Tagami, H. Tanaka, M. Suzuki, Kamifukuoka,T. Miyaoka, T. Kodate, T. Aoki, K.Tanaka, H. Uchinao, S . Aruga, H.Ohnishi, H. Akita, Y. Taniguchi, K. Ami,Sokuro," Traffic Analysis of Ethernet-PON In FTTH Trial Service", OFC 2003.

Muneer Zuhdi, "Next Generation Triple Play Access Network Feasibility and Challenges", IEEE 2006

Curtis Knittle, David Piehler, "RF / TP Hybrid Network for Video Delivery Over FTTP", Optical Society of America, 2005.

Yao-Ling Cheng, Yi-Hsiung Lin, Ming-Chuan Wang, Fu- Yi Cheng, Cherng-Shiun Wu, Yu-Chen Yu, "Integrated a hybrid CATV/GPON transport system based on 1.31/1.49/1.55 pm WDM transceiver module", Quantum Electronics and Laser Science Conference (QELS) 2005.

Lev B. Sofman, Bill Krogfoss, "Dimensioning of Active Broadcast Channels in Access IPTV Network", Optical Society of America, 2005.

http://www.rsoftdesign.com

Maurice Gagnaire, “An overview of broad-band access Technologies”, Proceedings of the IEEE, vol. 85, no. 12, pp. 1958 – 1972, dec 1997.

Claude E. Shannon, “A mathematical theory of communication”, The Bell System Technical Journal, vol. 27, pp. 379–423, 623– 656, July, October 1948.

Fiber Optic Communication by Joseph Plais 2005, 3rd Edition.

Optical Fiber Communications by John M. Senior