Методика оценки отношения сигнал-шум в волоконно-оптических системах передачи с частотным разделением каналов

The procedure of estimating optical signal to noise ratio (OSNR) in optical fiber transmission systems with spectral multiplexing, using orthogonal and not orthogonal subcarriers multiplexing with domination of four-wave mixing effects was offered. The technique is based on measuring the OSNR for four-channel signal transmission system which is used to predict OSNR for M-channel transmission system.

оптическое отношение сигнал-шум, четырёхволновое смешение, поднесущие каналы, frequency division multiplexing, optical signal to noise ratio, four-wave mixing, subcarriers

1. ITU-T Recommendation G.694.1. Spectral grids for WDM applications: DWDM frequency grid.

2. Gutierrez F. A., Perry P., Smyth F., Ellis A. D., Barry L. P. Impact of band rejection in multichannel broadband subcarrier multiplexing // IEEE/OSA Opt. Communicat. Networking. 2015. V.7. Iss. 4. P. 248-252.

3. Qiu M., Zhuge Q., Chagnon M., Gao Y., Xu X., Morsy-Osman M., Plant D. V. Digital subcarrier multiplexing for fiber nonlinearity mitigation in coherent optical communication systems // Opt. Express. 2014. V. 22. Iss. 15. P.18770-18777.

4. Hui R., Zhu B., Huang R., Allen C. T., Demarest K.R., Richards D. Subcarrier Multiplexing for High-Speed Optical Transmission // J. Lightwave Technol. 2002. V. 20. Iss. 3. P. 417-427.

5. Lowery A. J., Du L. B. Optical orthogonal division multiplexing for long haul optical communications: A review of the first five years // Opt. Fiber Technol. 2011. V. 17. Iss. 5. P. 421-438.

6. Shieh W., Chen Xi. Information Spectral Efficiency and Launch Power Density Limits Due to Fiber Nonlinearity for Coherent Optical OFDM Systems // IEEE Photonics J. 2011. V. 3. Iss. 2. P. 158-173.

7. Lowery A. J., Wang S., Premaratne M. Calculation of power limit due to fiber nonlinearity in optical OFDM systems // Opt. Express. 2007. V. 15. Iss. 20. P. 13282-13287.

8. T. Shneider. Nonlinear Optic in Telecommunications. N.Y.: Springer, 2004. P. 415.

9. Hmood J. K., Harun S. W., Emami S. D., Khodaei A., Noordin K. A., Ahmad H., Shalaby H. M. H. Performance analysis of an all-optical OFDM system in presence of non-linear phase noise // Opt. Express. 2015. V. 23. Iss. 4. P. 3886-3900.

10. Варданян В. А. Исследование распределения продуктов четырехволнового смешивания в ВОСП с ЧРК // Вестник СибГУТИ. 2016. №2. С. 78-84.

11. Варданян В. А. Влияние помех от четырёхволнового смешения на спектрально разделенные каналы в пассивных оптических сетях доступа // Автометрия. 2017. Т.53, №1. С. 63-72.

12. Le S. T., Blow K., Turitsyn S. Power pre-emphasis for suppression of FWM in coherent optical OFDM transmission // Opt. Express. 2014. V. 22. P. 7238-7248.

13. Goebel B., Fesl B., Coelho L. D., Hanik N. On the Effect of FWM in Coherent Optical OFDM Systems // OFC/NFOEC: Opt. Fiber Communicat. / Nation. Fiber Opt. Eng. Conf., 2008. P. 1-3.

14. Abd ElRazak B. K., Aly M. H. Suppression of Four Wave Mixing Crosstalk in Four 10Gbps Channels Over a 50 km Dispersion Shifted Fiber Using Unequal Channel Spacing // 19th Intern. Conf. Computer: Theory&Appl. ICCTA: Alexandria, Egypt, 2009. P.228-233.

15. Sugumaran S., Sharma N., Chitranshi S., Thakur N., Arulmozhivarman P. Effect of Four-wave Mixing on WDM System and its Suppression Using Optimum Algorithms // Intern. J. Eng. Technol. (IJET). 2013. V. 5. No 2. P. 1432-1444.

16. Vrizlynn L. L. Thing, Shum P., Rao M. K. Channel allocation algorithm for WDM systems // Opt. Express. 2003. V. 11. Iss. 11. P.1322-1327.