| Name |
Patent Title |
Patent No |
Authorization Date |
State |
| Zhan Li, Yi Lilin |
Low noise exponential gain clamped erbium doped fiber amplifier |
CN03116604.0 |
2006.01.25 |
Authorized |
| Zhan Li, Yi Lilin |
Fiber grating-enhanced L-band dual-pass erbium-doped fiber amplifier |
CN200310108304.1 |
2006.10.11 |
Authorized |
| Xing Liang, Zhan Li, Yi Lilin, Xia Yuxing |
L-band dual-pass backward-pumped erbium-doped fiber amplifier |
CN200710047680.2 |
2009.09.02 |
Authorized |
| Zhu Min, Xiao Shilin, Yi Lilin, Guo Wei, Chen He |
Fast and Dynamically Configurable Optical Packet Buffers in All-Optical Networks |
CN200810042493.X |
2009.10.07 |
Authorized |
| Xing Liang, Zhan Li, Yi Lilin, Luo Jieyu, Xia Yuxing |
High-power fiber-optic Brillouin amplifiers for all-optical buffers |
CN200710047679.X |
2010.05.19 |
Authorized |
| Yi Lilin,Hu Weishng |
Confidential optical communication system based on stimulated Brillouin scattering |
CN201010214407.6 |
2012.10.31 |
Authorized |
| Yi Lilin, Liu Chun |
Graphene electro-optic modulator based on D-type optical fiber |
CN201120571231.X |
2013.01.23 |
Authorized |
| Yi Lilin, Liu Chun |
Graphene electro-optic modulator based on D-type optical fiber |
CN201120571231.X |
2013.01.23 |
Authorized |
| Yi Lilin, Zhang Yan, Zheng Yan, Ni Zhenhua, Ding Rong, Liang Zheng, Song Xiaoduan, Hu Weishng |
Graphene-based hybrid clamping technology |
CN201210273278.7 |
2013.03.06 |
publicized |
| Yi Lilin, Li Zhengxuan, Hu Weishng, Ye Tong, Zhang Tao |
All-optical code conversion system based on excited Brillouin scattering effect |
CN201210157936.6 |
2014.11.12 |
Authorized |
| You Weizhi, Yi Lilin, Zhang Weiya, Wang Gang, Zhang Tao, Zhang Yan, Li Zhengxuan, Hu Weishng |
Scheduling algorithm for uplink bandwidth allocation in optical orthogonal frequency division multiplexing access systems |
CN201210541571.7 |
2015.11.25 |
Authorized |
| Yan Zhang, Yi Lilin, Wei Wei, Meihua Bi, Zhengxuan Li, Weizhi You, Yan Zheng, Hu Weishng |
Rectangular optical filter system based on excited Brillouin scattering effect |
CN201310497106.2 |
2015.12.23 |
Authorized |
| Yi Lilin, Zheng Yan, Li Weixiong, Hu Weishng |
A graphene-based saturable absorber mirror and method for manufacturing the same |
CN201310312487.2 |
2015.12.23 |
Authorized |
| Zheng Yan, Yi Lilin, Li Weixiong, Hu Weishng |
Graphene-based reflective saturable absorber and preparation method |
CN201310312516.5 |
2016.04.06 |
Authorized |
| Bi Meihua, He Hao, Li Zhengxuan, Yi Lilin, Xiao Shilin, Hu Weishng |
Hybrid wavelength-division time-division multiplexing passive optical network transmission system based on direct-modulated lasers |
CN201310185632.5 |
2016.07.06 |
Authorized |
| Yi Lilin,Hou Tongtong,Hu Weishng |
Quadratic Encrypted Chaotic Secrecy Optical Communication System Based on Phase Transformation |
CN201610697835.6 |
2016.08.19 |
publicized |
| Yi Lilin,Xue Lei, Ji Honglin,Hu Weishng |
Frequency domain equalization method based on dispersion overcompensation |
CN201610575363.7 |
2018.04.03 |
Authorized |
| Shi Mengyue,Yi Lilin、Hu Haiyang, Yang Jian, Huang Jianjun |
A highly stable microwave signal generation method based on excited Brillouin scattering effect |
ZL201811636020.2 |
2020.01.07 |
Authorized |
| Yi Lilin,Pu Guoqing,Zhang Li,Hu Weishng |
A fast automatic mold clamping method covering multi-state pulse recognition |
CN201810308009.7 |
2020.05.26 |
Authorized |
| Yi Lilin,Pu Guoqing,Zhang Li,Hu Weishng |
A fast automatic mold clamping method covering multi-state pulse recognition |
ZL201810308009.7 |
2020.03 |
Authorized |
| Pu Guoqing,Yi Lilin,Zhang Li |
An anthropomorphic method for automatic mold clamping in multiple pulse states |
ZL201910501986.3 |
2020.09 |
Authorized |
| Pu Guoqing,Yi Lilin,Zhang Li |
An anthropomorphic algorithm for automatic mold clamping in multiple pulse states |
CN201910501986.3 |
2020.11.10 |
Authorized |
| Yi Lilin,Niu Zekun,Yang Hang |
End-to-end optimization method and system based on micro-assistible channels |
CN202111405475.5 |
2021.11.24 |
Substantive examination |
| Yi Lilin,Yang Hang,Niu Zekun |
Fast and accurate modeling method and system for distributed fiber optic channels based on feature decoupling |
CN202111478750.6 |
2021.12.06 |
Substantive examination |
| Yi Lilin,Zhao Haochen,Yang Hang |
Method and system for modeling ultrafast pulsed fiber optic transmission based on convolutional feature extraction |
CN202210277959.4 |
2022.03.21 |
Substantive examination |
| Yi Lilin,Niu Zekun,Tai Chehao,Yang Hang |
Deep learning-based mutual information quantity calculation method and system for fiber optic communication transmission system |
CN202210540923.0 |
2022.05.17 |
Substantive examination |
| Yi Lilin,Yang Hang,Niu Zekun |
Data-driven end-to-end modeling method and system based on fiber optic communication experimental system |
CN202211281083.7 |
2022.10.19 |
Substantive examination |
| Mu Huan、Yi Lilin、Fang Zhiwei, Zhai Fengtian, Du Fangqiang, Xiao Junchen |
Integrated Photodetector |
ZL202221395834.3 |
2023.01.03 |
Authorized |
| Yi Lilin、Shi Mengyue、Wu Yong、Li Jie 、Mu Huan |
A laser seed source spectral broadening spectral measurement device |
ZL202221409571.7 |
2023.01.03 |
Authorized |
| Yi Lilin,Shi Mengyue、Li Jie、Wu Zhangli、Wu Yong |
Spectral broadening system and method based on binarized multi-frequency signal driving for seed sources |
ZL202111264892.2 |
2023.01.24 |
Authorized |
| Shi Mengyue,Yi Lilin、Wu Zhangli |
Brillouin microwave photonic filter bandwidth expansion method and system |
ZL202111388157.2 |
2023.01.24 |
Authorized |
| Yi Lilin,Shi Mengyue,Li Jie, Wu Zhangli, Mu Huan |
Seed source spectral broadening method, device and high power continuous fiber laser system |
ZL202111117156.4 |
2023.02.03 |
Authorized |
| Yi Lilin,Shi Mengyue,Wu Zhangli, Li Jie, Mu Huan |
Seed source spectral broadening method, device and high power continuous fiber laser system |
ZL202111117160.0 |
2023.02.28 |
Authorized |
| Yi Lilin,Liang Jiaxi,Niu Zekun |
Physical layer confidentiality method and system based on mutual information quantity estimation neural network |
ZL202111574717.3 |
2023.03.14 |
Authorized |
| Yi Lilin,Xu Yongxin,Huang Luyao, Jiang Wenqing, Guan Xiaokai |
Method and system for end-to-end optimization of optical communication system based on noise-adaptive network |
CN202310553839.7 |
2023.05.16 |
Substantive examination |
| Yi Lilin,Niu Zekun,Liang Jiaxi |
Joint geometric and probabilistic constellation shaping method and system based on mutual information quantity estimation |
CN202210010298.9 |
2023.06.27 |
Authorized |
| Yi Lilin, Xu Yongxin, Huang Luyao, JIANG Wenqing |
Method and system for optimizing Volterra equalizer structure based on deep reinforcement learning |
CN202111572693.8 |
2023.07.25 |
Authorized |
| Yi Lilin, Niu Zekun, Yang Hang |
Clock recovery method and system for fiber optic communication systems |
CN202310954067.8 |
2023.07.31 |
Substantive examination |
| Yi Lilin, Niu Zekun, Yang Hang |
Method and system for clock leakage compensation in optical communication systems |
CN202310954095.X |
2023.07.31 |
Substantive examination |
| Yi Lilin, Niu Zekun, Yang Hang |
Digital Signal Processing Methods and Systems for Optical Communication Systems |
CN202310954036.2 |
2023.07.31 |
Substantive examination |
| Yi Lilin, Huang Luyao, Jiang Wenqing, Xu Yongxin |
Method and system for constructing Volterra-type neural network equalizers |
CN115208721B |
2024.01.23 |
Authorized |
EN
