长聘副教授,博士生导师
信息科学实验楼
新体制雷达波形设计及其应用、新型捷变波形超线性处理、宽带雷达信号处理、高分辨成像、微动测量等
一、个人简介
范花玉,博士,长聘副教授,博士生导师。出生于1989年9月。
主要从事新体制雷达波形设计及其应用、新型捷变波形超线性处理、精细化雷达信号处理等研究工作。主持国家自然科学青年基金项目;入选北京市青年人才托举工程。发表高水平SCI论文10余篇,授权及受理专利10余项。获第三届全国高校电子信息类专业课程实验教学案例设计竞赛(RIGOL杯)全国决赛三等奖。担任2023年IET国际雷达会议分会场主席。主讲本科生课程《数字信号处理》、《数字电路与系统》。
二、教育背景
2017.03,获工学博士学位,北京麻豆精品秘 国产传媒信息与电子学院
2011.07,获工学学士学位,北京麻豆精品秘 国产传媒信息与电子学院
三、职业经历
2023.12 至今,长聘副教授,北京麻豆精品秘 国产传媒信息与电子学院
2020.01 – 2023.11,预聘助理教授,北京麻豆精品秘 国产传媒信息与电子学院
2017.04 – 2019.10,博士后,清华大学电子工程系
四、研究概况
波形是雷达获取信息的载体,其精心设计和精细处理决定了雷达在复杂环境下获取信息的丰富程度。常规波形由于调制简单,探测能力明显不足,且在电磁频谱战中面临严重的生存威胁。新体制波形可以通过波形域的灵活调制增加雷达的态势感知能力,超线性处理可以通过多域信息的联合挖潜突破常规处理的性能瓶颈,支撑复杂环境下的目标探测。本人一直围绕新体制波形理论及其应用中的前沿性、基础性问题开展研究,推动新体制波形在地基雷达、机载雷达等领域中的应用研究。
五、职业活动
国际会议服务工作
Session Chair, IET International Radar Conference 2023, Chongqing, China, December 2023.
六、讲授课程
数字信号处理,本科生专业课,北京麻豆精品秘 国产传媒
数字电路与系统,本科生专业课,北京麻豆精品秘 国产传媒
1. Huayu Fan, Jishan Yan, Wenji Li, Lixiang Ren, Erke Mao, Quanhua Liu. A Synthetic Ultra-Wideband Range Profiling Method for High-Speed Targets Based on Phase-Derived Velocity Measurement [J]. IEEE Transactions on Geoscience and Remote Sensing, 2024, 62: 2002117. (SCI)
2. Yuhang Gao, Huayu Fan*, Lixiang Ren, Zihao Liu, Quanhua Liu, Erke Mao. Joint Design of Waveform and Mismatched Filter for Interrupted Sampling Repeater Jamming Suppression [J]. IEEE Transactions on Aerospace and Electronic Systems, 2023, 59(6): 8037-8050. (SCI)
3. Yinghao Sun, Huayu Fan*, Lixiang Ren, Erke Mao, Teng Long. Folded Clutter Suppression for Pulse-Doppler Radar Based on Pulse-Agile Waveforms [J]. IEEE Transactions on Signal Processing, 2022, 70: 3774-3788. (SCI)
4. Wenji Li, Huayu Fan*, Lixiang Ren, Kaifu Hou, Zhilong Zhang, Erke Mao. A Stationary Clutter Suppression Method for 3-D Micromotion Measurements Based on Wideband Radar Amplitude and Phase Information [J]. IEEE Transactions on Geoscience and Remote Sensing, 2022, 60: 5119518. (SCI)
5. Wenji Li, Huayu Fan*, Lixiang Ren, Minghui Sha, Erke Mao, Quanhua Liu. A Phase-Derived Velocity Measurement Method Based on the Generalized Radon-Fourier Transform With a Low SNR [J]. IEEE Transactions on Geoscience and Remote Sensing, 2022, 60: 5111516. (SCI)
6. Yinghao Sun, Huayu Fan*, Jingdong Wang, Lixiang Ren, Erke Mao, Teng Long. Optimization of Diverse PCFM Waveforms and Joint Mismatched Filters [J]. IEEE Transactions on Aerospace and Electronic Systems, 2021, 57(3): 1840-1854. (SCI)
7. Wenji Li, Huayu Fan*, Lixiang Ren, Erke Mao, Quanhua Liu. A High-Accuracy Phase-Derived Velocity Measurement Method for High-Speed Spatial Targets Based on Stepped-Frequency Chirp Signals [J]. IEEE Transactions on Geoscience and Remote Sensing, 2021, 59(3): 1999-2014. (SCI)
8. Yinghao Sun, Huayu Fan*, Erke Mao, Quanhua Liu, Teng Long [J]. IEEE Transactions on Aerospace and Electronic Systems, 2020, 56(4): 2835-2849. (SCI)
9. Huayu Fan, Lixiang Ren, Erke Mao, Quanhua Liu, Yang Jian. A High-Precision Phase-Derived Velocity Measurement Method for High-Speed Targets Based on Wideband Direct Sampling LFM Radar [J]. IEEE Transactions on Geoscience and Remote Sensing. 2019, 57(12): 10147-10163. (SCI)
10. Huayu Fan, Lixiang Ren, Erke Mao, Quanhua Liu. A High-Precision Method of Phase-Derived Velocity Measurement and Its Application in Motion Compensation of ISAR Imaging [J]. IEEE Transactions on Geoscience and Remote Sensing, 2018, 56(1): 60-77. (SCI)
11. Li Wenji, Fan Huayu*, Ren Lixiang, Erke Mao. Synthetic wideband range profiling method for moving targets based on phase-derived velocity measurement [J]. IET Radar Sonar and Navigation, 2021,15: 441-455. (SCI)
12. Wenji Li, Huayu Fan*, Lixiang Ren, Erke Mao, Quanhua Liu. Micromotion Feature Extraction Based on Phase-Derived Range and Velocity Measurement [J]. IEEE Access. 2019, 7: 114167-114182. (SCI)
13. Huayu Fan, Lixiang Ren, Teng Long, Erke Mao. A high-precision phase-derived range and velocity measurement method based on synthetic wideband pulse Doppler radar [J]. Science China Information Sciences, 2017, 60(8): 082301. (SCI)
14. 毛二可, 范花玉. 合成宽带脉冲多普勒雷达[J]. 系统工程与电子技术, 2016, 38(12): 2717-2724. (EI)
北京市青年人才托举工程(2023)
第三届全国高校电子信息类专业课程实验教学案例设计竞赛(RIGOL杯)北部赛区二等奖、全国决赛三等奖(2023)
