Poggiolini P, Bosco G, Carena A, Curri V, Jiang Y, Forghieri F. A detailed analytical derivation of the GN model of non-linear interference in coherent optical transmission systems. arXiv preprint arXiv:12090394 2012. 详细推导
Carena A, Curri V, Bosco G, Poggiolini P, Forghieri F. Modeling of the Impact of Nonlinear Propagation Effects in Uncompensated Optical Coherent Transmission Links. Journal of Lightwave Technology 2012, 30(10): 1524-1539. 包含接收信号高斯分布的分析
D'Amico A, Correia B, London E, Virgillito E, Borraccini G, Napoli A, Curri V. Scalable and Disaggregated GGN Approximation Applied to a C+L+S Optical Network. Journal of Lightwave Technology 2022: 1-1. 较新的拓展
Poggiolini P. The GN Model of Non-Linear Propagation in Uncompensated Coherent Optical Systems. Journal of Lightwave Technology 2012, 30(24): 3857-3879. 好文
Poggiolini P, Bosco G, Carena A, Curri V, Jiang Y, Forghieri F. The GN-model of fiber non-linear propagation and its applications. Journal of lightwave technology 2013, 32(4): 694-721. 好文
Roberts I, Kahn JM, Harley J, Boertjes DW. Channel Power Optimization of WDM Systems Following Gaussian Noise Nonlinearity Model in Presence of Stimulated Raman Scattering. Journal of Lightwave Technology 2017, 35(23): 5237-5249. 好文,SRS详细分析
Semrau D, Killey RI, Bayvel P. A Closed-Form Approximation of the Gaussian Noise Model in the Presence of Inter-Channel Stimulated Raman Scattering. Journal of Lightwave Technology 2019, 37(9): 1924-1936. ISRSGN
Semrau D, Sillekens E, Killey RI, Bayvel P. A Modulation Format Correction Formula for the Gaussian Noise Model in the Presence of Inter-Channel Stimulated Raman Scattering. Journal of Lightwave Technology 2019, 37(19): 5122-5131. ISRSGN矫正
Ferrari A, Filer M, Balasubramanian K, Yin Y, Le Rouzic E, Kundrát J, Grammel G, Galimberti G, Curri V. GNPy: an open source application for physical layer aware open optical networks. Journal of Optical Communications and Networking 2020, 12(6): C31. 开源工具
Carena A, Bosco G, Curri V, Jiang Y, Poggiolini P, Forghieri F. EGN model of non-linear fiber propagation. Optics express 2014, 22(13): 16335-16362.
Why GN model?
Carena A, Bosco G, Curri V, Poggiolini P, Taiba MT, Forghieri F. Statistical characterization of PM-QPSK signals after propagation in uncompensated fiber links. 36th European Conference and Exhibition on Optical Communication; 2010: IEEE; 2010. p. 1-3. 色散未补偿相干链路中信号传输的高斯分布
Poggiolini P, Bosco G, Carena A, Cigliutti R, Curri V, Forghieri F, Pastorelli R, Piciaccia S. The LOGON strategy for low-complexity control plane implementation in new-generation flexible networks. 2013 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC); 2013: IEEE; 2013. p. 1-3. GN模型推论之LOGO大法
Serena P, Bononi A. The nonlinear signal-noise interaction in coherent links and its implications in system design. 2015 European Conference on Optical Communication (ECOC); 2015: IEEE; 2015. p. 1-3. GN模型下非线性的累积分析
Pastorelli R, Piciaccia S, Griseri E, Forghieri F. Analytical extension of LOGO approach for commercial optical networks and experimental validation. 2015 Fotonica AEIT Italian Conference on Photonics Technologies; 2015: IET; 2015. p. 1-4. LOGO策略实验分析
Cantono M, Auge JL, Curri V. Modelling the impact of SRS on NLI generation in commercial equipment: An experimental investigation. 2018 Optical Fiber Communications Conference and Exposition (OFC); 2018: IEEE; 2018. p. 1-3. SRS效应对于NLI影响的实验分析
Cantono M, Pilori D, Ferrari A, Carena A, Curri V. Observing the Interaction of PMD with Generation of NLI in Uncompensated Amplified Optical Links. 2018 Optical Fiber Communications Conference and Exposition (OFC); 2018: IEEE; 2018. p. 1-3. PMD对NLI的影响
Pastorelli R, Bosco G, Carena A, Poggiolini P, Curri V, Piciaccia S, Forghieri F. Investigation of the dependence of non-linear interference on the number of WDM channels in coherent optical networks. European Conference and Exhibition on Optical Communication; 2012: Optica Publishing Group; 2012. p. We. 2. C. 2. 工程好文,NLI与波数之间的关系
Elson DJ, Saavedra G, Shi K, Semrau D, Galdino L, Killey R, Thomsen BC, Bayvel P. Investigation of bandwidth loading in optical fibre transmission using amplified spontaneous emission noise. Optics express 2017, 25(16): 19529-19537.
Semrau D, Killey R, Bayvel P. Achievable rate degradation of ultra-wideband coherent fiber communication systems due to stimulated Raman scattering. Optics express 2017, 25(12): 13024-13034.
Vacondio F, Rival O, Simonneau C, Grellier E, Bononi A, Lorcy L, Antona J-C, Bigo S. On nonlinear distortions of highly dispersive optical coherent systems. Optics Express 2012, 20(2): 1022-1032. 差点就是GN model了?
时域微扰模型
Serena P, Bononi A. A Time-Domain Extended Gaussian Noise Model. Journal of Lightwave Technology 2015, 33(7): 1459-1472.
Golani O, Elson D, Lavery D, Galdino L, Killey R, Bayvel P, Shtaif M. Experimental characterization of the time correlation properties of nonlinear interference noise. 2017 European Conference on Optical Communication (ECOC); 2017: IEEE; 2017. p. 1-3.
Bononi A, Bertolini M, Serena P, Bellotti G. Cross-Phase Modulation Induced by OOK Channels on Higher-Rate DQPSK and Coherent QPSK Channels. Journal of Lightwave Technology 2009, 27(18): 3974-3983. 对非线性的研究早,也很接近现在的结论
Bononi A, Serena P, Rossi N. Nonlinear signal–noise interactions in dispersion-managed links with various modulation formats. Optical Fiber Technology 2010, 16(2): 73-85.
Dahan D, Zarubinsky M, Liang Y, Golani O, Shtaif M. Universal Virtual Lab: A Fast and Accurate Simulation Tool for Wideband Nonlinear DWDM Systems. Journal of Lightwave Technology 2022, 40(8): 2441-2455. 解耦和统计分布的思想加速了时域计算
Dar R, Feder M, Mecozzi A, Shtaif M. Inter-Channel Nonlinear Interference Noise in WDM Systems: Modeling and Mitigation. Journal of Lightwave Technology 2015, 33(5): 1044-1053.
Dar R, Feder M, Mecozzi A, Shtaif M. Pulse Collision Picture of Inter-Channel Nonlinear Interference in Fiber-Optic Communications. Journal of Lightwave Technology 2016, 34(2): 593-607. 不同信道的波形相互扰动
Golani O, Dahan D. Inter-Channel Nonlinear Interference Noise in the Presence of PDL. Journal of Lightwave Technology 2022.
Golani O, Dar R, Feder M, Mecozzi A, Shtaif M. Modeling the Bit-Error-Rate Performance of Nonlinear Fiber-Optic Systems. Journal of Lightwave Technology 2016, 34(15): 3482-3489.
Mecozzi A, Essiambre R-J. Nonlinear Shannon Limit in Pseudolinear Coherent Systems. Journal of Lightwave Technology 2012, 30(12): 2011-2024.
Dar R, Feder M, Mecozzi A, Shtaif M. Time varying ISI model for nonlinear interference noise. Optical Fiber Communication Conference; 2014: Optica Publishing Group; 2014. p. W2A. 62.
Golani O, Feder M, Mecozzi A, Shtaif M. Correlations and phase noise in NLIN-modelling and system implications. Optical Fiber Communication Conference; 2016: Optical Society of America; 2016. p. W3I. 2.
Dar R, Feder M, Mecozzi A, Shtaif M. Properties of nonlinear noise in long, dispersion-uncompensated fiber links. Optics Express 2013, 21(22): 25685-25699.
Dar R, Feder M, Mecozzi A, Shtaif M. Accumulation of nonlinear interference noise in fiber-optic systems. Optics express 2014, 22(12): 14199-14211. 对于非线性的研究,时间节点也是相似的
Golani O, Elson D, Lavery D, Galdino L, Killey R, Bayvel P, Shtaif M. Experimental characterization of nonlinear interference noise as a process of intersymbol interference. Optics letters 2018, 43(5): 1123-1126.
EDFA动态性
Bolshtyansky M, Cowle G. Spectral hole burning in EDFA under various channel load conditions. 2009 Conference on Optical Fiber Communication; 2009: IEEE; 2009. p. 1-3. 掺铒光纤放大烧孔效应
Zhu S, Gutterman CL, Mo W, Li Y, Zussman G, Kilper DC. Machine learning based prediction of erbium-doped fiber WDM line amplifier gain spectra. 2018 European Conference on Optical Communication (ECOC); 2018: IEEE; 2018. p. 1-3. EDFA增益建模
Yankov MP, de Moura UC, Ros FD. Power Evolution Modeling and Optimization of Fiber Optic Communication Systems With EDFA Repeaters. Journal of Lightwave Technology 2021, 39(10): 3154-3161.
Yankov MP, Kaminski PM, Hansen HE, Da Ros F. SNR optimization of multi-span fiber optic communication systems employing EDFAs with non-flat gain and noise figure. Journal of Lightwave Technology 2021, 39(21): 6824-6832.
Yu J, Zhu S, Gutterman CL, Zussman G, Kilper DC. Machine-learning-based EDFA gain estimation [Invited]. Journal of Optical Communications and Networking 2021, 13(4): B83.
Ishii K, Kurumida J, Namiki S. Wavelength assignment dependency of AGC EDFA gain offset under dynamic optical circuit switching. Optical Fiber Communication Conference; 2014: Optica Publishing Group; 2014. p. W3E. 4.
Huang Y, Gutterman CL, Samadi P, Cho PB, Samoud W, Ware C, Lourdiane M, Zussman G, Bergman K. Dynamic mitigation of EDFA power excursions with machine learning. Optics express 2017, 25(3): 2245-2258.
光链路参数识别
D’Amico A, Straullu S, Borraccini G, London E, Bottacchi S, Piciaccia S, Tanzi A, Nespola A, Galimberti G, Swail S. Enhancing lightpath QoT computation with machine learning in partially disaggregated optical networks. IEEE Open Journal of the Communications Society 2021, 2: 564-574.
Morette N, de Jauregui Ruiz IF, Hafermann H, Pointurier Y. On the Robustness of a ML-based Method for QoT Tool Parameter Refinement in Partially Loaded Networks. Optical Fiber Communication Conference; 2022: Optica Publishing Group; 2022. p. M3F. 1.
Fiber bend loss 光纤弯折
Wang P, Wang Q, Farrell G, Rajan G, Freir T, Cassidy J. Investigation of macrobending losses of standard single mode fiber with small bend radii. Microwave and Optical Technology Letters. 2007 Sep;49(9):2133-8.
Faustini L, Martini G. Bend loss in single-mode fibers. Journal of lightwave technology. 1997 Apr;15(4):671-9.