alternative based on a combination of directly detected. Single Channel Directly Detected. Optical-OFDM towards Higher. Spectral Efficiency and Simplicity in.
> REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT)
REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT) < [14] A. Al Amin, H. Takahashi, I. Morita, and H. Tanaka, “100Gb/s direct-detection OFDM transmission on independent polarization tributaries,” IEEE Photon. Technol. Lett. , vol. 22, no. 7, pp. 468–470, 2010. [15] M. Bakaul, A. Nirmalathas, C. Lim, D. Novak, and R. Waterhouse, “Spectrally efficient hybrid multiplexing and demultiplexing schemes toward the integration of microwave and millimeterwave radio-over-fiber systems in a WDM-PON infrastructure,” J. Opt. Netw., vol. 8, no. 5, pp. 462-470, May 2009. [16] M. Bakaul, A. Nirmalathas, C. Lim, D. Novak, and R. Waterhouse, “Simplified multiplexing scheme for wavelengthinterleaved DWDM millimeter-wave fiber-radio systems,” in proc. the European Conference on Optical Communication (ECOC’2005), vol. 4, pp. 809-810, September, 2005 [17] F. Buchali, R. Dischler, “Optimized sensitivity direct detection O-OFDM with multi level subcarrier modulation,” in proc. conference on Optical Fiber Communication (OFC 2008), pp. 1-3, 2008, Paper OMU3. [18] J. Yu, X. Zhou, Yue-Kai Huang, S. Gupta, Ming-Fang Huang, T. Wang, P. Magill, “112.8-Gb/s PM-RZ-64QAM optical signal generation and transmission on a 12.5GHz WDM grid,” in proc. conference on Optical Fiber Communication (OFC 2010), pp. 1-3, 2010, Paper OThM1. [19] S. Okamoto, T. Omiya, K. Kasai, M. Yoshida, M. Nakazawa, “140 Gbit/s coherent optical transmission over 150 km with a 10 Gsymbol/s polarization-multiplexed 128 QAM signal,” in proc. conference on Optical Fiber Communication (OFC 2010), pp. 1-3, 2010, Paper OThD5. [20] IEEE Std 802.11™-2007 (Revision of IEEE Std 802.11-1999), Part 11: wireless LAN MAC and PHY specifications, clause 17, pp. 591-635, 2007. [21] L. Mehedy, M. Bakaul, A. Nirmalathas, “115.2 Gb/s optical OFDM transmission with 4 bit/s/Hz spectral efficiency using IEEE 802.11a OFDM PHY,” in proc. the 14th OptoElectronics and Communications Conference (OECC), pp. 1-2, July 2009 [22] L. Mehedy, M. Bakaul, A. Nirmalathas, “Spectrally-efficient 100 Gb/s transmission in next-generation optical access networks employing directly detected optical-OFDM,” in proc. Australasian Telecommunication Networks and Applications Conference (ATNAC), pp. 55-59, October 2010. [23] I. Dedic, “56Gs/s ADC : enabling 100GbE,” in proc. conference on Optical Fiber Communication (OFC 2010), pp. 1-3, 2010, Paper OThT6. [24] R. A. Shafik, M. S. Rahman, and A. H. M. R. Islam, “On the extended relationships among EVM, BER and SNR as performance metrics,” in proc. 4th International Conference on Electrical and Computer Engineering, pp. 408-411, December, 2006 [25] Z. Zan, M. Premaratne, and A. J. Lowery, “Laser RIN and linewidth requirements for direct detection optical OFDM,” CLEO’08, pp. 1-2, 2008, Paper CWN2 [26] W.-R. Peng, “Analysis of laser phase noise effect in directdetection optical OFDM transmission,” J. Lightw. Technol., vol. 28, no. 17, pp.2526-2536, Sept.1, 2010 Lenin Mehedy (S’08) received his B.Sc.Eng. degree in computer science and engineering from Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh, in November 2004 and M.S. degree in computer engineering from Kyung Hee University, Suwon, Korea, in February 2007. Currently he is working toward the Ph.D. degree in electrical and electronic engineering at the University of Melbourne, Australia. He is a Graduate Researcher in the Networked Systems group of Victoria Research Laboratory at the National ICT Australia (NICTA), Australia. He has written more than 20 technical articles and holds a patent in Korea. His research interests include graph
8
theory, ubiquitous computing, optical communication and signal processing. Mr. Mehedy is a student member of IEEE and Optical Society of America (OSA). Masuduzzaman Bakaul (S’02–M’06) received the B.Sc.Eng. degree from Bangladesh University of Engineering and Technology (BUET) and Ph.D. degree from the University of Melbourne, Australia, both in electrical and electronic engineering in 1996 and 2006, respectively. In 2006, he joined the National ICT Australia (NICTA), a premier Australian research centre of excellence in ICT, where he is currently a Senior Researcher with the Networked System theme. He is also an Adjunct Fellow with the Department of Electrical and Electronic Engineering, University of Melbourne, Australia since 2006. From 1997-2001, he worked as an optical engineer for Fiber Optic Network Solutions (FONS) Bangladesh LTD, a subsidiary of FONS Corp., MA, USA, which has been acquired by ADC recently. His research interests include integration of optical and wireless technologies in last mile communications, microwave photonics, millimeter-wave RF in indoor and outdoor communications, optical performance monitoring, OFDM-over-fiber, and Photonics ADC on a chip. He has written more than 60 technical articles in these areas that include a book in millimeter-wave radio-over-fiber systems. His paper in IEEE LEOS’2005 conference was awarded the LEOS/Newport/Spectra-Physics Research Excellence Award. He has also contributed to NICTA’s commercialization activities through his research resulting in a start-up company. Dr. Bakaul was one of the TPC co-chairs of APCC/ATNAC’2010 and was the session chairs and members of TPC for various international conferences. Ampalavanapillai Nirmalathas (S’94– M’98–SM’03) obtained his B.E. and Ph.D. in Electrical and Electronic Engineering from the University of Melbourne in 1993 and 1998 respectively. He is currently a Professor and Head in the Department of Electrical and Electronic Engineering at the University of Melbourne, Australia. He was the Research Group Manager of the Networked Systems Group of Victoria Research Laboratory at the National ICT Australia (NICTA) and also the acting Lab Director of VRL in 2007. Between 2000 and 2004, he was the Director of Photonics Research Laboratory (Melbourne Node of Australian Photonics CRC) and also the Program Leader of Telecommunications Technologies Program. He has written more than 200 technical articles and currently holds 2 active international patents. His research interests include microwave photonics, semiconductor lasers, fiber-radio systems, optical access networks, optical performance monitoring and WDM packet switched networks. Prof. Nirmalathas is a member of Steering Committees of Asia Pacific Conference on Lasers and Electro-Optics (representative of IEEE LEOS) as well as the International Conference on Optical Internet (COIN) and a member of technical subcommittee on microwave photonics for the IEEE LEOS. He was also Guest Editor for Special Issue on Opto-Electronics and Communications of the IEICE Transactions in Communications. He also served as the General Co-Chair of 2008 IEEE Topical Meeting on Microwave Photonics. He is currently an Associate Editor of IEEE/OSA Journal of Lightwave Technology. He is a Senior Member of IEEE and a Fellow of the Engineers Australia.
