THE NEW CHANNEL ALLOCATION METHODOLOGY TO REDUCE FOUR-WAVE MIXING IN DWDM SYSTEM USING UNEQUAL-SPACED CHANNEL MATCHING TECHNIQUE
Main Article Content
Abstract
This paper presents a new channel allocation method to reduce FWM in DWDM systems by using unequal-spaced channel matching techniques. By comparing the FWM reduction capability of the new channeling and the ES traditional channel allocation method. From research result, found that 1) the new channel allocation method was able to reduce FWM better than the traditional method, 2) the new channel alloaction method can increase the number of channels than the traditional method, and 3) the new channel allocation method can increase the data transfer rate up to 20Gb/s, which is higher than the traditional channel allocation method.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The published articles are copyright of the Engineering Journal of Research and Development, The Engineering Institute of Thailand Under H.M. The King's Patronage (EIT).
References
ITU-T Recommendation G.694.1. Spectral grids for WDM applications: DWDM frequency grid, ITU-T Study Group 15.
B.Michael, W. Eric and S. Van: Fiber Optics Handbook. New York, USA: McGraw Hill, OSA, 2002.
F, Forghieri. et al. Marcuse: Reduction of Four-wave mixing crosstalk in WDM system using unequally spaced channels. IEEE Photon. Technol. Lett, 1994, 6, pp.754-756.
F, Forghieri. WDM system with unequally spaced channels. J. Lightw. Technol, Lett, 1995, 13, pp.889-891.
A, Okada. et al. Reduction of four-wave mixing crosstalk using a novel hybrid WDM/TDM technique. ECOC’98, Proc. Eur. Conf. Opt. Commu, 1998, pp.289-290.
S, Kojima. and T, Numai. Theoretical analysis of modified repeated unequally spaced frequency allocation in FDM lightwave transmission systems. J. Lightw. Technol, 2006, 24, pp. 2786–2797.
Y, Nagatani. et al. Theoretical analysis of frequency allocation in FDM lightwave transmission system. J. Lightw. Technol, 2008, 26, pp.1993-2001.
S, Kojima. and T, Numai. Reduction of four-wave mixing noise in FDM optical fiber transmission system in unequally spaced frequency allocation using base units. J. Opt. Commu, 2013, 294, pp.305-310.
L, Zhang. and J, Tang. Label-switch architecture for IP traffic over WDM network. IEEE Proc-Common, 2000, 147 (5), Oct, pp.269-276.
A, Jumpates. et al. The analysis of paired unequally spaced repeated alternate unequally spaced allocation channels for FDM lightwave. In PIERS. Suzhou: China, 2011, pp.754-758.
Tang, J. Kheong S.C. and Zhang, L. Optical nonlinear effects on the performance of IP traffic over GMPLS-base DWDM networks. J.Computer Commu, 2003, 26, pp.1330-1340.
Chin T.S. Abbou F.M. and Tat E.H. Impact of four wave mixing (FWM) in routing and wavelength assignment. American J. Applied Sci, 2008, 5, pp.1059-1063.
Fujita, S. et al. 10Gb/s 100km optical fiber transmission experiment using high-speed MQW DFB-LD and backiluminated GalnAs APD. American Electron Lett, 1986, 5, pp.702-703.
Fujita, S. et al. High sensitivity 5Gb/s optical receiver module using Si IC GalnAs APD. Electron Lett, 1990, 26, Pp.175-176.