国家重点研发计划项目课题:超宽带超高速单模光纤通信关键技术与实验验证,2023-2026,主持;
国家自然科学基金重点项目:超宽带光纤传输系统智能优化理论与方法,2025~2029,主研;
四川省应用基础研究项:基于激光混沌的相干光安全通信关键技术研究,2022~2023,主持;
四川省重点研发项目:应用亲和的全域数据流动调度技术研究与应用,2023~2024,校内主持;
国家电网公司项目:川藏铁路供电工程规划建设及运行关键技术研究,2021~2024,参与;
国家重点研发计划子课题:相干光通信系统中的光发射与调控集成芯片技术,2019-2022,主持;
国家重点研发计划子课题:新型光纤传输构架与关键技术研究,2020-2022,主持;
国家自然科学基金重点国际(地区)合作研究项目:光学任意波形产生技术,2019-2023,主研;
西南交通大学烟台研究院:面向电力电网温度监控的光纤传感技术,2018-2019,主持;
国家电网西藏电力有限公司:超高海拔地区大容量电力通信传输系统应用策略、生存性及可靠性研究,2017-2018,主持;
国家自然科学基金:相干光通信系统中光学辅助自适应信号损伤补偿技术研究,2015-2017,主持;
国家自然科学基金重点项目:新型多维光学信息传输关键技术研究,2014-2018,主研;
国家重点实验室开放基金(北京邮电大学):基于非线性光纤的偏振无关全光信息处理技术,2013-2015,主持;
教育部重点实验室开放基金(电子科技大学):高速多模短距离光纤传输系统关键技术及其应用研究,2013-2015,主持。
Junling Huang, Anlin Yi, Lianshan Yan, Xingchen He, Lin Jiang, Hui Yang, Bin Luo, and Wei Pan, "Fast fiber nonlinearity compensation method for PDM coherent opticaltransmission systems based on the Fourier neural operator", Opt. Express, 2024, 32(2): 2245-2256.
Jianxiong Fei, Anlin Yi, Junling Huang, Lianshan Yan, Bin Luo, Xingchen He, Lin Jiang, Wei Pan,"A Fast Fiber Channel Modelling Based on Koopman Neural Operator for PDM Signal Transmission", 2024 Conference on Lasers and Electro-Optics (CLEO), Charlotte Convention Center, Charlotte, North Carolina, USA.
Anlin Yi, Lianshan Yan, Hengjiang Liu, Lin Jiang, Yan Pan, Bin Luo, and Wei Pan, “Modulation format identification and OSNR monitoring using density distributions in Stokes axes for digital coherent receivers,” Opt. Express, vol. 27, no. 4, p: 4471, 2019.
Anlin Yi, Hengjiang Liu, Liansan Yan, Lin Jiang, Yan Pan, Bin Luo, Amplitude variance and 4th power transformation based modulation format identification for digital coherent receiver, Optics Communications, July 2019, 452:109-115.
Qinghong Bao, Anlin Yi, Lin Jiang, Yan Pan, Lianshan Yan, Kehang Xu. Influence of Polarization Mode Dispersion on DBP Algorithm in Unrepeatered Raman Amplification System. Asia Communications and Photonics Conference (ACP), Nov.2019, paper M4A.29, Chengdu, China.
刘恒江,易安林,基于信号功率非线性变换的光信噪比监测。光通信研究,vol.5, no.25, pp: 14~18, 2019.
Anlin Yi, Lianshan Yan, Bin Luo, Wei Pan, Lin Jiang, Zhiyu Chen and Yan Pan, “Transmission of multi-dimensional signals for next generation optical communication systems,” Opt. Commun., vol. 408, 2018.
A. Yi, L. Yan, L. Jiang, Y. Pan, B. Luo, and W. Pan, “Modulation format identification based on density distributions in Stokes plane for digital coherent receivers,” in proceeding of Asia Communications and Photonics Conference (ACP), Nov.2017, paper Su2A.29, Guangzhou, China.
A.-L. Yi, L.-S. Yan, C. Liu, M. Zhu, L. Zhang, C. -H. Ye, J. Wang and G.-K. Chang. Frequency Offset Compensation and Carrier Phase Recovery for Differentially Encoded 16-QAM Vector Signal in a 60-GHz RoF System. IEEE Photonics Journal, Vol. 5, No.4, 807-814, 2013.
C. Liu, A.-L. Yi, M. Zhu, et al. A novel direct-modulation envelope-detection pol-mux MIMO RoF system based on blind equalization techniques. Proceeding of Optical Fiber Communication Conference (OFC’2013), Anaheim, USA, 2013, OM3D.6.
M. Zhu, A.-L. Yi, Y. T. Hsueh, C. Liu, J. Wang, S. C. Shin, J. Yu, G. K. Chang. Demonstration of 4-band millimeter-wave radio-over-fiber system for mult-service wireless access netwroks. Proceeding of Optical Fiber Communication Conference (OFC’2013), Anaheim, USA, 2013, OM3D.4.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye. Effects of pattern dependence for high power polarization division multiplexing applications. Chinese Opt. Lett., 2012, 10(1): 010601-010603.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye, Z.-Y. Chen, and J. H. Lee. Simultaneous all-optical RZ-to NRZ format conversion for two tributaries in PDM signal using a single section of highly nonlinear fiber. Opt. Express, 2012, 20(9): 9890-9896.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye, and Z.-Y. Chen, “RZ to NRZ Format Conversion for Two Tributaries of a PDM Signal Simultaneously Utilizing a Single section of HNLF,” Optical Fiber Communication Conference (OFC’2012), pp.JW2A.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan and J. Ye. Wavelength conversion of RZ-OOK PDM signals based on XPM in highly nonlinear fiber. IEEE Photon. Technol. Lett., 2011, 23(6): 341-343.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye. All-optical signal regeneration in polarization-division-multiplexing systems. IEEE Photon. Journal, 2011, 3(4): 703-713.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan and J. Ye. All-optical regeneration of polarization division multiplexing signals in polarization nonlinear loop mirror. Opt. Comm., 2011, 248: 3619-362.
Anlin Yi, Lianshan Yan, Bin Luo, Wei Pan, Jia Ye and Zhiyu Chen, “One-to-eleven (11×10-Gb/s) all-optical NRZ-to-RZ format conversion and wavelength multicasting using a single pump in a highly nonlinear fiber,” Optical Fiber Communication Conference (OFC’2011), pp.OThE5.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye and Z.-Y. Chen, “PMD Mitigation in RZ-OOK PDM Systems Based on a Single Polarization-Diversified All-Optical Regenerator,” CLEO’2011, paper JWA16.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye and J. Leuthod. Self-phase-modulation based all-optical regeneration of PDM signals using a single section of highly-nonlinear fiber. Opt. Express, 2010, 18(7): 7150-7155.
L.-S. Yan, A.-L. Yi, W. Pan, B. Luo and J. Ye. Simultaneous NRZ-to-RZ format conversion and one-to-six error-free channel multicasting using a single pump in a highly nonlinear fiber. Opt. Express, 2010, 18(20): 21404-21409.
L.-S. Yan, A.-L. Yi, W. Pan and B. Luo. A simple demodulation method for FBG sensor using narrow band wavelength tunable DFB laser. IEEE Photon. Technol. Lett., 2010, 22(18): 1391-1393.
A.-L. Yi, L.-S. Yan, B. Luo, Wei. Pan and J. Ye, “All-optical wavelength conversion of RZ-OOK PDM signals by XPM in HNLF,” Asia Communication and Photonics Conference (ACP’2010), pp.ThB 6.
Anlin Yi, Lianshan Yan, Bin Luo and Wei Pan, “A simple demodulation method for FBG sensor using narrow band wavelength tunable DFB laser,” Optical Society of America (OSA): Sensors, 2010.
A.-L. Yi, L.-S. Yan, B. Luo, W. Pan, J. Ye and X. Steve Yao, “A novel scheme for all optical automatic polarization division demultiplexing,” Asia Communication and Photonics Conference (ACP’2009), pp.TuAA1.
智能信号检测与处理
超高容量光传输理论与技术
人工智能光子器件与系统
6G 或 Beyond 6G 物理层传输技术
非线性光学
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