+86 0551-63601307

刘发林

  • 王百宗
  • 2024-01-16
  • 9824

基本信息:

  刘发林,男,籍贯河北赞皇县,1963年7月生于河北邢台市。中国科学技术大学电子工程与信息科学系教授,博士生导师。先后于清华大学和中国科学技术大学获工学学士和硕士、博士学位。主要从事电磁场与微波技术、微波通信等方面的科研、教学与技术开发工作。曾在日本东北大学作访问学者,2001年入选教育部优秀青年教师资助计划。先后获得国家科技进步二等奖等奖励多项。主讲本科生课程《非线性电子线路》和研究生课程《毫米波通信技术》等。



学习与工作履历:

1980. 09-1985. 07, 清华大学无线电系(现电子工程系)本科生,获工学学士学位

1985. 09-1988. 06, 中国科学技术大学无线电系(现电子工程与信息科学系)研究生,获工学硕士学位

1999. 09-2004.05, 中国科学技术大学电子工程与信息科学系在职博士研究生、工学博士



1988. 06-1990. 12, 中国科学技术大学电子工程与信息科学系助教

  毫米波器件,子系统与测量技术

1991. 01-1995. 06, 中国科学技术大学电子工程与信息科学系讲师

  等离子体测试用毫米波干涉仪、毫米波测速雷达

1995. 07-2001.12, 中国科学技术大学电子工程与信息科学系高级工程师

  卫星移动通信网及相关微波毫米波调制技术、微波与激光的相互作用、无辐射介质波导器件与子系统等

2002. 01-至今, 中国科学技术大学电子工程与信息科学系研究员

  卫星移动通信网与关键技术、微波与激光的相互调制与通信应用、无辐射介质波导耦合、微波功放与数字预失真技术等

  其中:

1997.10-1998.10, 日本东北大学电气通信研究所访问学者无辐射介质波导耦合与调制

1999.04-2004.04, 中国科学技术大学微波毫米波工程研究中心 副主任

最新论文链接2004.04-2009.03,中国科学技术大学电子工程与信息科学系 常务副主任/执行主任

2009.03-2014.09,中国科学技术大学信息科学技术学院 副院长



 科技研发:

  主持或参加包括863计划、973项目、移动通信重大专项、国家自然科学基金、中科院知识创新项目、教育部优秀青年教师资助计划项目等20余项,涉及毫米波器件与雷达前端技术、毫米波仪器频率扩展与测量技术、卫星组网通信关键技术、微波通信、微波成像、微波功放与数字预失真技术等。曾获得国家科技进步二等奖、中国科学院科技进步一等奖等多项奖励。发表期刊论文100余篇,其中SCI、EI索引100余篇。目前主要研究方向为:卫星移动通信与链路关键技术、SAR雷达成像、微波功放与新型滤波结构、射频功放数字预失真等。

  获奖与专利:

1991年, 中国科学院科技进步三等奖, 8 毫米照射雷达锁相源

1992年, 国家科技进步二等奖,毫米波仪器的频率扩展技术

1997年, 铁道部科技进步二等奖,毫米波驼峰测速雷达

1998年, 中国科学院科技进步一等奖,毫米波线性调频连续波雷达前端与目标模拟器

1994年, 国家实用新型专利 T?CL-2型驼峰测速雷达



部分学术论文:

最新论文链接 https://faculty.ustc.edu.cn/liufalin/zh_CN/lwcg/904112/list/index.htm


[1] Tao Ni, Falin Liu, A New Impedance Match Method to improve efficiency of LINK with Chireix Combiner, Microwave and Optical Technology Letters, Vol 52, No. 6, pp1418-1421, 2010.06.

[2] Tao Mei, Jinlian Guo, Xian-Sheng Hua, Falin Liu, AdOn: toward contextual overlay in-video advertising, Multimedia Systems, Vol 16, No 4-5, pp335-344,  Aug. 2010.

[3] Y. Ding, Y.X. Guo and F.L. Liu, High Efficiency Concurrent Dual Band Class-F and Inverse Class-F Power Amplifier, IET Electronics Letters, 47(15), pp847-849, 2011.07.

[4] M. S. Chen, F. L. Liu, H. M. Du, and X. L. Wu, Compressive Sensing for Fast Analysis of Wide-Angle Monostatic Scattering Problems, IEEE Antenna and Wireless Propagation Letters, Vol 10, pp1243-1246, 2011.11.

[5] Yao Ding, Yong-Xin Guo, Lan You, and Fa-Lin Liu, Concurrent Dual Band Class F Power Amplifier with Novel Harmonic Control Network, Microwave and Optical Technology Letters, 54(3), pp707-711, 2012.03.

[6] Guang Yang, Wei Liu, Falin Liu, Sheng Zhang, A Cascaded Triplet SIW Filter , Microwave Journal, 2012.11.

[7] Guang Yang, Wei Liu, Falin Liu, Two new electric coupling structures for double folded substrate integrated waveguide cavity filters with transmission zeros, Microwave and Optical Technology Letters, 55(8), pp1815-1818, 2013.08.

[8] Wei Liu, Zhi Ning Chen, Terence Shie Ping See, and Falin Liu, SIW-Slot-Fed Thin Beam-Squint-Free Fabry-Pérot Cavity Antenna with Low Backlobe Levels, IEEE Antenna and Wireless Propagation Letters, Vol 13, pp552-554, 2014.03.

[9] Guang Yang, Falin Liu, Caihong Zhao, Zhenyang Wang, Lingli Li, Haoyu Wang, Frequency Domain Data Based Model Extraction for Band-Limited Digital Predistortion of Wideband RF Power Amplifiers, Int’l Journal of RF and Microwave Computer-Aided Engineering, 24(3), pp412-420, 2014.05.

[10] Guang Yang, Haoyu Wang, Lingli, Li, Falin Liu, One-step model extraction method for direct learning digital predistortion, IET Electronics Letters, 50(15), pp1148-1150, 2014.07.

[11] Zhenyang Wang, Falin Liu, Haoyu Wang, Broadband High Efficiency Power Amplifier With Harmonic Suppression Based on Load-Pull Technique, Microwave and Optical Technology Letters, 57(2), pp481-485, 2015.02.

[12] Haoyu Wang, Falin Liu, Wei Tao and Gang Li, One-step extracting optimal normalization gain for digital predistortion linearization, IET Electronics Letters, 51(6), pp514-516, 2015.04.

[13] Chongbin Zhou, Zhida Zhang, Falin Liu, Robust 1-bit Compressive Sensing via Variational Bayesian Algorithm, Digital Signal Processing, 50(2016), pp84-92, 2016.03.

[14] Sheng Zhang, Xue-Dong Fu, Ting Wang, Fa-Lin Liu, Hai-Ting Wang, and Hai Liu, Quasi Quarter SIW-Mode Resonator and Its Application to Sierpinski Fractal Filter Design, Microwave and Optical Technology Letters, 58(5), pp1176-1179, 2016.05.

[15] Xiaofeng Jiang, Hongsheng Xi, Xiaodong Wang and Falin Liu, Finding Optimal Observation-Based Policies for Constrained POMDPs Under the Expected Average Reward Criterion, IEEE Trans. on Automatic Control, 61(10), pp3070-3075, 2016.10.

[16 ] Chongbin Zhou, Zhida Zhang, Falin Liu, Bo Li, Gridless Compressive Sensing Method for Line Spectral Estimation from 1-Bit Measurements, Digital Signal Processing, 60(2017), pp152-162, 2017.01.

[17] Haoyu Wang, Gang Li, Chongbin Zhou, Wei Tao, Falin Liu, and Anding Zhu, 1-bit Observation for Direct-Learning-Based Digital Predistortion of RF Power Amplifiers, IEEE Trans. on Microw. Theory Tech., 65(7), pp2465-2475, 2017.07.

[18] Sheng Zhang, Hai-Ting Wang, Yi-Kang Zhang, Hai Liu, Fa-Lin Liu, Miniaturized bandpass filter using quarter SIW resonator with elliptic defected structure, Microwave Journal, 60(3), pp74-80, 2017.03.

[19] Bo Li, Falin Liu, Chongbin Zhou, Yuanhao Lv and Jingqiu Hu, Phase Error Correction for Approximated Observation-Based Compressed Sensing Radar Imaging,  Sensors, 2017, 17, 613, 2107.03.

[20] Yikang Zhang, Haoyu Wang, Gang Li, Falin Liu, One-bit in-phase observation for direct learning-based digital predistortion with modified frequency-domain delay estimation and alignment, Int'l Journal of RF and Microwave Computer-Aided Engineering, 2017; e21149, 2017.11.

[21] Xiaofeng Jiang, Xiaodong Wang, Hongsheng Xi, and Falin Liu, Centralized Optimization for Dec-POMDPs Under the Expected Average Reward Criterion, IEEE Trans. on Automatic Control, 62(11), pp6032-6038, 2017.11.

[22] Sheng Zhang, Jia-Yu Rao, Jia-Sheng Hong, Fa-Lin Liu, A Novel Dual-Band Controllable Bandpass Filter Based on Fan-Shaped Substrate Integrated Waveguide, IEEE Microwave and Wireless Components Letters, 28(4), pp308-310, 2018.04.

[23] Sheng Zhang, Jia-Yu Rao, Jun-Jie Cheng, Jia-Sheng Hong, Fa-Lin Liu, A novel triple-band bandpass filter based on equilateral triangle substrate integrated waveguide, Microwave and Optical Technology Letters, 60(3), pp575-578, 2018.03.

[24] Bo Li, Falin Liu, Chongbin Zhou, Zheng Wang, Hao Han, Mixed sparse representation for approximated observation-based compressed sensing radar imaging, Journal of Applied Remote Sensing, 12(3), 035015 (2018), 2018.09.

[25] Zhang Y, Li Y, Liu F, Zhu A., Vector Decomposition Based Time-Delay Neural Network Behavioral Model for Digital Predistortion of RF Power Amplifiers, IEEE Access, 7: 91559-91568. 2019.07

[26] Yanwei Yin, Falin Liu, Zheng Wang, Hao Han, Yuanhang Jia, Synthetic aperture radar autofocus based on phaseless measurements, Journal of Applied Remote Sensing,14(1), 014515 (2020), 2020.02.

[27] Hongmin Li, Yikang Zhang, Gang Li and Falin Liu, Vector Decomposed Long Short-Term Memory Model for Behavioral Modeling and Digital Predistortion for Wideband RF Power Amplifiers, IEEE Access, 8: 63780-63789. 2020.03.

[28] Gang Li, Yikang Zhang, Hongmin Li, Wen Qiao, and Falin Liu,  Instant Gated Recurrent Neural Network Behavioral Model for DigitalPredistortion of RF Power Amplifiers, IEEE Access, 8: 67474-67483. 2020.04.

[29] Hongmin Li, Wen Qiao, Qiao Liu, Gang Li, Yikang Zhang, Guangjian Wang, Falin Liu, Signed Orthogonal Regressor Algorithm for Digital Predistortion of Power Amplifiers, IEEE Microwave and Wireless Components Letters, 31(7), pp869-872, 2021.07.

[30] Zheng Wang, Falin Liu, Yuanhang Jia, Hongyi Yang, Yuanyue Guo, One bit compressive sensing with off-grid targets, Digital Signal Processing, 115 (8): 103088, 2021.08.

[31] Wen Qiao, Hongmin Li, Chengye Jiang, Guichen Yang, Lei Su, Falin Liu, Heuristic Model Structure Optimization for Digital Predistortion, IEEE Access, 9: 158831-158841, 2021.11.

[32] (102) Guichen Yang, Hongmin Li, Wen Qiao, Chengye Jiang, Qiao Liu, Guangjian Wang, Falin Liu, Digital predistortion based on sample selection with memory effect, Int'l Journal of RF and Microwave Computer-Aided Engineering, 37(2), 2022.02

[33] Chengye Jiang, Hongmin Li, Wen Qiao, Guichen Yang, Qiao Liu, Guangjian Wang, Falin Liu, Block-Oriented Time-Delay Neural Network Behavioral Model for Digital Predistortion of RF Power Amplifiers, IEEE Trans. Microw. Theory and Tech., 70(3), pp1461-1473, 2022.03.

[34] Guichen Yang, Wen Qiao, Chengye Jiang, Lei Su, Falin Liu, Generalized Ridge Regression-Based Few-Sample Learning Digital Predistortion, IEEE Microwave and Wireless Components Letters, 32(6), pp606-606, 2022.06.

[35] Yufei Suo, Wen Qiao, Chengye Jiang, Boyang Zhang, Falin Liu, A Residual-Fitting Modeling Method for Digital Predistortion of Broadband Power Amplifiers, IEEE Microwave and Wireless Components Letters, 32(9), pp1115-1118, 2022.09.

[36] Chengye Jiang, Wen Qiao, Guichen Yang, Lei Su, Falin Liu, A Manifold Regularization Approach for Low Sampling Rate Digital Predistortion With Band-Limited Feedback, IEEE Trans. Microw. Theory and Tech., 70(11), pp4928-4939, 2022.11.

[37] Renlong Han, Wen Qiao, Chengye Jiang, Lei Su, Guichen Yang, Jingchao Tan, and Falin Liu, A Low Running Complexity Model for Digital Predistortion of RF Power Amplifiers, IEEE Microwave and Wireless Components Letters, 32(11), pp1371-1374, 2022.11.

[38] Chengye Jiang, Wen Qiao, Guichen Yang, and Falin Liu, Efficient Signal Alignment Algorithm for Undersampling Digital Predistortion, IEEE Microwave and Wireless Components Letters., 32(12), pp1487-1490, 2022.12.

[39] Guichen Yang, Wen Qiao, Chengye Jiang, Lei Su, Renlong Han, Jingchao Tan, Falin Liu, Memory Feature-Based Sample Selection Strategy for Few-Sample Learning Digital Predistortion, IEEE Trans.Microw. Theory Techn., 71(2), pp602-612, 2023.02.

[40] Renlong Han, Wen Qiao, Chengye Jiang, Guichen Yang, Jingchao Tan, Falin Liu, Low Complexity Adaptive Model for Digital Predistortion of RF Power Amplifiers in Time-Varying Configurations, IEEE Trans.Microw. Theory Techn., 71(5), pp2004-2015, 2023.05.

[41] Renlong Han, Chengye Jiang, Guichen Yang, Jingchao Tan, Falin Liu, Pruned Basis Space Search for Digital Predistortion of RF Power Amplifiers, IEEE Trans.Microw. Theory Techn., 71(7), pp2946-2957, 2023.07.

[42] Chengye Jiang, Guichen Yang, Renlong Han, Jingchao Tan, Falin Liu, Gated Dynamic Neural Network Model for Digital Predistortion of RF Power Amplifiers With Varying Transmission Configurations, IEEE Trans.Microw. Theory Techn., 71(8), pp3605-3616, Aug 2023.08.

[43] Guichen Yang, Chengye Jiang, Renlong Han, Jingchao Tan, Falin Liu, Reducing Parameter Estimation Error of Behavioral Modeling and Digital Predistortion via Transfer Learning for RF Power Amplifiers, IEEE Trans. Microw. Theory Techn., 71 (11), pp4787-4799, 2023.11.

[44 ] Renlong Han, Chengye Jiang, Guichen Yang, Qianqian Zhang, Falin Liu, Decomposed Vector Combination-Based Low-Complexity Behavioral Model for Digital Predistortion of RF Transmitters, IEEE Trans. on Broadcasting (Online Published), pp1-13, 2023.

[45] Renlong Han, Chengye Jiang, Guichen Yang, Qianqian Zhang, Falin Liu, Complexity-Optimized Adaptive Model for Multiband Digital Predistortion of RF Power Amplifiers, IEEE Trans. Microw. Theory Techn., (Online Published), pp1-13, 2023.

[46] Guichen Yang, Chengye Jiang, Renlong Han, Jingchao Tan, Qianqian Zhang, Falin Liu, Heterogeneous Basis Parameter Combination Method and Dynamic Transfer Strategy for Digital Predistortion of RF Power Amplifiers, IEEE Trans. Microw. Theory Techn., (Online Published), pp1-11, 2023.

[47] Qianqian Zhang, Chengye Jiang, Guichen Yang, Renlong Han, Falin Liu, Block-Oriented Recurrent Neural Network for Digital Predistortion of RF Power Amplifiers, IEEE Trans. Microw. Theory Techn., (Online Published), pp1-11, 2023.


专业委员会:

  《微波学报》副主编

  中国微波学会副主任委员



  类别

  招生专业

  研究方向

  硕士学位研究生

080904电磁场与微波技术

  电磁场数值方法,微波毫米波理论与技术

081001 通信与信息系统

  微波通信,卫星通信

  博士学位研究生

080904电磁场与微波技术

 射频功放数字预失真技术,微波毫米波理论与技术,

SAR雷达成像