International Journal of Telecommunications & Emerging Technologies

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The classical LMS, RLS are most popular algorithms. In this work we have modified LMS and RLS to achieve the faster convergence. But at the cost of hardware complexity. This has been tested over optical few-mode fiber communication system.

Xuan He ,Yi Weng, “A Step-Size Controlled Method for Fast Convergent Adaptive FD-LMS Algorithm in a Few-Mode fiber communication system”, journal of lightwave technology, vol. 32, no. 22, november 15, 2014.

SercanO¨.Arık, Daulet Askarov, and Joseph M. Kahn,“ Adaptive Frequency-Domain Equalization in Mode-Division Multiplexing Systems ”, journal of lightwave technology, vol. 32, no. 10, may 15, 2014.

Md. Saifuddin Faruk and Kazuro Kikuchi, “Frequency-Domain Adaptive Equalizer with Rational Oversampling Rates in Coherent Optical Receive”, ECOC 2014, Cannes – France P.3.22.

Neng Bai, Ezra Ip, Ming-Jun Li, Ting Wang and Guifang li, “ Long-Distance Mode-Division Multiplexed Transmission using Normalized Adaptive Frequency-Domain Equalization”, 978-1-4673-50600/$31.00 ©2013 IEEE.

An Li, Abdullah Al Amin, “Reception of Dual-Spatial-Mode CO-OFDM in optical fiber”, journal of lightwave technology, vol. 30, no. 4, february 15, 2012.

Sebastian Randel, Miquel A. Mestre, Roland Ryf, and Peter J. Winze “Digital Signal Processing in Spatially Multiplexed Coherent Communications”, ECOC Technical Digest © 2012 OSA

Joseph M. Kahn and Keang-Po H02, “Mode Coupling in Coherent Mode-Division Multiplexed Systems Impact on Capacity and Signal Processing Complexity”, 978-1-4673-5051-8/12/$31.00 © 20 12 ieee

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SEB J. SAVORY, “Editorial Special Issue on Photonics Technology for Space Division Multiplexing”, ieee photonics technology letters, vol. 24, no. 21, november 1, 2012.

Omid Zia-Chah “Efficient Frequency-Domain Implementation of Block-LMS/CMA Fractionally Spaced Equalization for Coherent Optical Communication”, ieeephotonics technology letters, vol. 23, no. 22, november 15, 2011.

Kun Shi, “A Frequency Domain Step-Size Control A method for LMS Algorithms”, ieee signal processing letters, vol. 17, no. 2, february 2010

D. J. Richardson1, J. M. Fini2 and L E. Nelson3 “Space Division Multiplexing in Optical Fibres” ,Optoelectronics Research Centre, University of Southampton, Highfield, Southampton, SO17 1BJ, UK. 2OFS Laboratories,19 Schoolhouse Road, Somerset, New Jersey 08873, USA.3AT&T Labs - Research, 200 S. Laurel Avenue, Middletown, New Jersey 07747, USA

D. J. Richardson, J. M. Fini and L E. Nelson Space Division Multiplexing in Optical Fibres1Optoelectronics Research Centre, University of Southampton, Highfield, Southampton, SO17 1BJ, UK.2OFS Laboratories,19 Schoolhouse Road, Somerset, New Jersey 08873, USA. 3AT&T Labs - Research, 200 S. Laurel Avenue, Middletown, New Jersey 07747, USA

S. Matsuo, Y. Sasaki1, I. Ishida, K. Takenaga, K. Saitoh and M. Koshiba “Recent Progress on Multi-Core Fiber and Few-Mode Fiber” OFC/NFOEC Technical Digest © 2013 OS

Kun Shi, Member, IEEE, and Xiaoli Ma, Senior Member, IEEEA “ Frequency Domain Step-Size Control Method for LMS Algorithms” IEEE SIGNAL PROCESSING LETTERS, VOL. 17, NO. 2, FEBRUARY 2010

Introduction to Recursive-Least-Squares Adaptive Filters Massachusetts Instituteof Technology Department Of Mechanical Engineering Mit OpenCourseWare 2.161 Signal Processing -Continuous and Discrete 2008

N. Dahnoun, M. Hart and F. Umbarila, “Software optimisation techniques for real-time applied adaptive filtering using the TMS320C6201 Digital Signal Processor” University of Bristol