学术信息网 西电导航 关于 使用说明 搜索 系统首页 登录 控制面板 收藏 马晖的留言板
学术论文

[1] Sizhe Gao, Hui Ma(*), Hongwei Liu, Yang, Junxiang, Yang Yang. A Gridless DOA Estimation Method for Sparse Sensor Array, Remote Sensing, 2023, 15, 5281.
[2] Kun Lv, Hui Ma(*), Xinrui Jiang, Jian Bai, Hongwei Liu, Micromotion Feature Extraction with VEMW Radar Based on Rotational Doppler Effect, Remote Sensing, 2023, 15, 2847.
[3] Sizhe Gao, Hui Ma(*), Hongwei Liu, Yang Yang, DOD and DOA Estimation From Incomplete Data Based on PARAFAC and Atomic Norm Minimization Method, IEEE Transactions on Geoscience and Remote Sensing, 2023, 61: 1-14.
[4] Jianjun Ma, Hui Ma(*), Hongwei Liu, Wei Liu, Xiangzheng Cheng, A Novel DOA Estimation for Low-Elevation Target Method Based on Multiscattering Center Equivalent Model," in IEEE Geoscience and Remote Sensing Letters, 2023, 20: 1-5.
[5] Jianjun Ma, Hongwei Liu, Hui Ma(*), Low-Elevation Target DOA Estimation Based on Multi-Scattering Center Equivalent Model, Remote Sensing, 2022, 14(15).
[6] Sizhe Gao, Hui Ma(*), Shaopeng Wei, Hongwei Liu, Guoqiang Wang, 3D Imaging Method Based on Digital Coding Metasurface With Unknown Mutual Coupling," in IEEE Transactions on Computational Imaging, 2022, 8: 808-821.
[7] 马健钧, 魏少鹏, 马晖(*), 刘宏伟, 基于ADMM的低仰角目标二维DOA估计算法, 电子与信息学报, 2022, 44(8):8.
[8] 王国强, 马晖(*), 高思哲. 数字编码超材料相频响应扩展及验证, 西安电子科技大学学报, 2022, 49(5):92-99.
[9] 高思哲, 马晖(*),  王国强, 刘宏伟, 基于数字编码超材料的大视场前视成像方法. 电波科学学报, 2022(004):037.
[8] 吕坤, 马晖(*), 刘宏伟, 基于涡旋电磁波体制的三维SAR成像方法. 雷达学报, 2021, 10(5):8.
[10] Hui Ma, Michail Antoniou(*), Andy G. Stove and Mikhail Cherniakov, Target Kinematic State Estimation With Passive Multistatic Radar, IEEE Transactions on Aerospace and Electronic Systems, 2021, 57(4): 2121-2134.
[11] Yu'e Shao, Hui Ma(*), Shenghua Zhou, Xue Wang, Michail Antoniou, Hongwei Liu, Target Localization Based on Bistatic T/R Pair Selection in GNSS-based Multistatic Radar System. Remote Sensing, 2021.
[12] Hui Ma and Hongwei Liu(*), "Waveform Diversity-Based Generation of Convergent Beam Carrying Orbital Angular Momentum, IEEE Transactions on Antennas and Propagation, 2020, 68(7), 5487-5495.
[13] Jiaqi Wei, Shuai Shao, Hui Ma(*), Penghui Wang, Lei Zhang, Hongwei Liu, High-Resolution ISAR Imaging with Modified Joint Range Spatial-Variant Autofocus and Azimuth Scaling, Sensors, 2020.
[14] Shenghua Zhou, Jing Lu, Pramod Varshney(*), Jianlai Wang, Ma Hui(*), Hongwei Liu, Colocated MIMO radar waveform optimization with receive beamforming, Digital Signal Processing, 2019, 98(4).
[15] Xinxun Zhang, Hui. Ma(*), Jianlai Wang, Shenghua Zhou and Hongwei Liu, Game Theory Design for Deceptive Jamming Suppression in Polarization MIMO Radar, IEEE Access, 2019, 7: 114191-114202.
[16] Hui Ma, Michail Antoniou(*), Andy G. Stove, Jon Winkel and Mikhail Cherniakov, Maritime Moving Target Localization Using Passive GNSS-Based Multistatic Radar, IEEE Transactions on Geoscience and Remote Sensing, 2018, 56(8): 4808-4819.
[17] Hui Ma(*), Michail Antoniou, Debora Pastina, Fabrizio Santi, Federica Pieralice, Marta Bucciarelli, Mikhail Cherniakov, Maritime Moving Target Indication Using Passive GNSS-Based Bistatic Radar, IEEE Transactions on Aerospace and Electronic Systems, 2018, 54(1): 115-130.
[18] Hui Ma(*), Michail Antoniou, Mikhail Cherniakov, Passive GNSS-Based BSAR Resolution Improvement Using Joint Galileo E5 Signals, IEEE Geoscience and Remote Sensing Letters, 2015, 12(8): 1640-1644.
[19] Hui Ma(*), Michail Antoniou, Mikhail Cherniakov, Passive GNSS-Based SAR Imaging and Opportunities Using Galileo E5 signals, Science China Information Sciences, 2015, 58(6): 1-11.
[20] Hui Ma(*), Ming Bai, Jungang Miao, Multi-frequency Method for Measuring Properties of Shock Tube Produced Plasma, IEEE Transactions on Plasma Science, 2015, 43(8): 2628-2635.
[21] Hui Ma(*), Ming Bai, Bin Liang, Jungang Miao, Along-Track Motion Compensation for StripMap SAR Based on Resampling, Progress In Electromagnetics Research M, 2014, 39: 181-191.
[22] Michail Antoniou(*), Mikhail Cherniakov, Hui Ma, Space-surface Bistatic Synthetic Aperture Radar with Navigation Satellite Transmissions: A Review, Science China Information Sciences, 58(6): 1-20.