Multi-dimensional SAR imaging and interferometry technology

SAR target detection and recognition

Synthetic aperture ladar imaging technology

   

2020—Now  Aerospace Information Research Institute (AIR)，Chinese Academy of Sciences (CAS)

2011—Now Institute of Electronics, Chinese Academy of Sciences

Bingnan Wang received his Ph.D. degree from the Graduate University of Chinese Academy of Sciences, Beijing, China, in 2011.Then he joined Aerospace Information Research Institute, Chinese Academy of Sciences (AIRCAS), Beijing. He has been a research fellow with the National Key Laboratory of Microwave Imaging Technology (MITL), AIRCAS. He is currently deputy director of MITL and responsible for SAR imaging and processing. He has authored and co-authored more than 90 articles since 2008. His research interests are focused on signal processing of advanced SAR system, including theory and applications of SAR interferometry, digital array SAR signal processing, synthetic aperture ladar imaging, and GMTI.

   

[1].  Bingnan Wang, Chong Song,Niu Liu,Zhongsheng Liu, Liangjiang Zhou, Maosheng Xiang. An Advanced Lightweight Dual-Band Digital Array SAR System: Earth Observation Imaging and Moving Target Detection, IEEE Sensors Journal,2023

[2].  Rongrong Wang, Hongwei Liu*,Bingnan Wang*,et al. Two-Stage Time-Varying Vibration Compensa-tion for Coherent LiDAR Based on the Adaptive Differential Evolution Method, IEEE Transactions on Geoscience and Remote Sensing，2023，61,5701211

[3].  Chong Song,Bingnan Wang*, Maosheng Xiang, Qinghai Dong,Zhongqi Wang, Yachao Wang,Xiaofan Sun,Lukai Song. A Novel Imaging-Based Target Detection and Parameter Estimation Scheme for Airborne Multichannel Circular Stripmap SAR, IEEE Transactions on Geoscience and Remote Sensing，2023，61,5203515

[4].  Chong Song , Bingnan Wang(*) , Maosheng Xiang, Qinghai Dong, Yachao Wang ,Zhongbin Wang , Weidi Xu , and Rongrong Wang, A General Framework for Slow and Weak Range-Spread Ground Moving Target Indication Using Airborne MultichannelHigh-Resolution Radar，IEEE Transactions on Geoscience and Remote Sensing，2022，60,5113616

[5].  Weidi Xu,Bingnan Wang*,Maosheng Xiang,Chong Song,Zhongbin Wang, A novel autofocus framework for UAV SAR imagery: motion error extraction from symmetric triangular FMCW differential signal,IEEE Transactions on Geoscience and Remote Sensing,2022，60，5218915

[6].  Weidi Xu*,Bingnan Wang*,Maosheng Xiang,ruoming Li,Wangzhe Li,Image Defocus in an Airborne UWB VHR Microwave Photonic SAR: Analysis and Compensation, IEEE Transactions on Geoscience and Remote Sensing,2022，60，5213518

[7].  Xiaofan Sun, Bingnan Wang*, Maosheng Xiang, Liangjiang Zhou, Shuai Wang, and Shuai Jiang，Machine Learning Inversion of Forest Vertical Structure Based on 2D-SGVBVoG Model for P-Band Pol-InSAR，IEEE Transactions on Geoscience and Remote Sensing，2022,60，5225115

[8].  Xikai Fu，Bingnan Wang*，Maosheng Xiang et al.Residual RCM Correction for LFM-CW Mini-SAR System Based on Fast-Time Split-Band Signal Interferometry，IEEE Transactions on Geoscience and Remote Sensing，2019,57(7)：4375-4387

[9].  Bingnan Wang, Maosheng Xiang, Longyong Chen. Motion compensation on baseline oscillations for distributed array SAR by combining interferograms and inertial measurement[J]. IET Radar Sonar Navigation, 2017, 11(8):1285-1291.

[10]. Qinghai Dong , Bingnan Wang*, Maosheng Xiang  Zekun Jiao, Zhongbin Wang，and Chong Song，An Improved Ground Moving Target Parameter Estimation and Imaging Method for Multichannel High Resolution SAR，Applied Sciences，2022,12，4934

[11]. Chong Song，Bingnan Wang*,Maosheng Xiang, Weidi Xu, Zhongbin Wang, Yachao Wang，and Xiaofan Sun Ground Moving Target Detection and Estimation for Airborne Multichannel Radar Based on Coherent Difference Processing，Remote Sensing, 2022,14，3325

[12]. Qinghai Dong, Bingnan Wang*, Maosheng Xiang, Yachao Wang, Chong Song. A Novel Detection Scheme in Image Domain for Multichannel Circular SAR Ground-Moving-Target Indication, Sensors,2022,22,2596

[13]. Wang shuai , Wang, Bingnan**, Xiang maosheng and Wu yirong. Signal modeling and imaging of frequency-modulated continuous wave sliding spotlight synthetic aperture ladar, IEEE Geoscience and Remote Sensing Letters,2022，19,4007305

[14]. Xiaofan Sun, Bingnan Wang*,Maosheng Xiang, Machine learning inversion for single-baseline P-band polarmatric SAR interferometry, IEEE Geoscience and Remote Sensing Letters,2022,19,4000305

[15]. Rongrong Wang Bingnan Wang*, YachaoWang, Wei Li, Zhongbin Wang and Maosheng Xiang, Time-Varying Vibration Compensation Based on Segmented Interference for Triangular FMCW LiDAR Signals, Remote Sensing,2021,13,03803

[16]. Weidi Xu, Bingnan Wang*，Maosheng Xiang，A Novel Motion estimation strategy based on symmetric triangular wave modulation for FMCW SAR, Remote sensing letters,2021，12(8):799-807

[17]. Rongrong Wang*, Bingnan Wang*, Maosheng Xiang 1,2, Chuang Li 3, Shuai Wang 1,2 ，Vibration compensation method based on instantaneous ranging model for triangular FMCW ladar signals，Optics Express，2021，Vol. 29, No. 11，pp15918-15939.

[18]. Rongrong Wang,Maosheng Xiang*, Bingnan Wang*， Nonlinear phase estimation and compensation for FMCW Ladar based on synchrosqueezing wavelet transform, IEEE Geoscience and Remote Sensing Letters,2021，18（7）：1174-1178

[19]. Rongrong Wang 1,2, Bingnan Wang *, Maosheng Xiang 1,2, Chuang Li 3, Shuai Wang 1,2 and Chong Song，Simultaneous Time-Varying Vibration and Nonlinearity Compensation for One-Period Triangular-FMCW Lidar Signal，Remote Sensing，2021,13,1731

[20]. Xiaoning Hu，Bingnan Wang*，Maosheng Xiang，Zhongbin Wang，A Novel Airborne Dual-Antenna InSAR Calibration Method for Backprojection Imaging Model，IEEE Access，2021，vol.9,43001-43012

[21]. Zhongbin Wang, Bingnan Wang*,Maosheng Xiang, A Coherence Improvement Method Based on Sub-Aperture InSAR for Human Activity Detection，Sensors, 2021, 21, 1424

[22]. Chong Song, Bingnan Wang*,Maosheng Xiang, Extended GLRT Detection of Moving Targets for Multichannel SAR Based on Generalized Steering Vector, Sensors, 2021, 21, 1478

[23]. Qian Qian，Bingnan Wang*,Maosheng Xiang,et.al. Coherent Markov Random Field-Based Unreliable DSM Areas Segmentation and Hierarchical Adaptive Surface Fitting for InSAR DEM Reconstruction，Sensors，2020,20（5）：1414

[24]. Shuai Wang, Bingnan Wang*, Maosheng Xiang,Xiaofan Sun,Weidi Xu Yirong Wu. Synthetic aperture ladar motion compensation method based on symmetrical triangular linear frequency modulation continuous wave, Optical communication,2020,471,125901

[25]. Xiaofan Sun,Bingnan Wang*,, Maosheng Xiang, Liangjiang Zhou, Shuai Jiang. Forest Height Estimation Based on P-Band Pol-InSAR Modeling and Multi-Baseline Inversion, Remote Sensing,2020,12,1319

[26]. Weidi Xu,Bingnan Wang*,Maosheng Xiang,Shuai Wang. A Novel Motion Compensation Approach Based on Symmetric Triangle Wave Interferometry for UAV SAR Imagery,2020, IEEE Access, vol.8,104996-105007

[27]. Song Chong; Wang, Bingnan*; Xiang, Maosheng;Wang Zhongbin;Xu Weidi;Sun Xiaofan .A Novel Post-Doppler Parametric Adaptive Matched Filter for Airborne Multichannel Radar. Remote Sensing,2020,12,4017

[28]. Xiaofan Sun，Bingnan Wang*，Maosheng Xiang et al. Forest Height Estimation Based on Constrained Gaussian Vertical Backscatter Model Using Multi-Baseline P-Band Pol-InSAR Data，Remote Sensing. 2019, 11（1）, 42

[29]. Xiaofan Sun，Bingnan Wang*，Maosheng Xiang et al. S-RVoG Model Inversion Based on Time-Frequency Optimization for P-Band Polarimetric SAR Interferometry，Remote Sensing, 2019,11(9)，1033

[30]. Shuai Wang，Bingnan Wang*，et.al. Analysis and compensation of telescopes’ gaps effect on aperture synthesis in multi-channel synthetic aperture ladar system,Applied Optics,2019,58(18)4884-4891.

[31]. Shuai Jiang，Bingnan Wang*，Maosheng Xiang et al. Method for InSAR/INS navigation systembased on interferogram matching, IET Radar Sonar Navigation,2018,12（9）：938-944.