23.8.6.2 Moving Targets, Radar, Radar Tracking, SAR Applications

Bi, H.[Hui], Wang, J.J.[Jing-Jing], Bi, G.[Guoan],
Wavenumber Domain Algorithm-Based FMCW SAR Sparse Imaging,
GeoRS(57), No. 10, October 2019, pp. 7466-7475.
IEEE DOI 1910
airborne radar, CW radar, FM radar, frequency-domain analysis, interference suppression, motion compensation, radar imaging, wavenumber domain algorithm (WDA) BibRef

Yang, L.[Lei], Zhao, L.F.[Li-Fan], Bi, G.[Guoan], Zhang, L.R.[Li-Ren],
SAR Ground Moving Target Imaging Algorithm Based on Parametric and Dynamic Sparse Bayesian Learning,
GeoRS(54), No. 4, April 2016, pp. 2254-2267.
IEEE DOI 1604
Bayes methods BibRef

Zhou, S., Yang, L., Zhao, L.F.[Li-Fan], Bi, G.[Guoan],
Quasi-Polar-Based FFBP Algorithm for Miniature UAV SAR Imaging Without Navigational Data,
GeoRS(55), No. 12, December 2017, pp. 7053-7065.
IEEE DOI 1712
Algorithm design and analysis, Geometry, Signal processing algorithms, Synthetic aperture radar, unmanned aerial vehicle (UAV) BibRef

Yanik, H.Ç.[H. Çagri], Yaz, B.[Birsen],
Synthetic Aperture Inversion for Statistically Nonstationary Target and Clutter Scenes,
SIIMS(8), No. 3, 2015, pp. 1658-1686.
DOI Link 1511
BibRef

Akcakaya, M., Sen, S., Nehorai, A.,
A Novel Data-Driven Learning Method for Radar Target Detection in Nonstationary Environments,
SPLetters(23), No. 5, May 2016, pp. 762-766.
IEEE DOI 1604
Clutter BibRef

Li, X., Xing, M., Xia, X.G., Sun, G.C., Liang, Y., Bao, Z.,
Simultaneous Stationary Scene Imaging and Ground Moving Target Indication for High-Resolution Wide-Swath SAR System,
GeoRS(54), No. 7, July 2016, pp. 4224-4239.
IEEE DOI 1606
Azimuth BibRef

Suwa, K., Yamamoto, K., Tsuchida, M., Nakamura, S., Wakayama, T., Hara, T.,
Image-Based Target Detection and Radial Velocity Estimation Methods for Multichannel SAR-GMTI,
GeoRS(55), No. 3, March 2017, pp. 1325-1338.
IEEE DOI 1703
Azimuth BibRef

Nouri, M.[Mahdi], Mivehchy, M.[Mohsen], Sabahi, M.F.[Mohamad Farzan],
Jammer target discrimination based on local variance of signal histogram in tracking radar and its implementation,
SIViP(11), No. 6, September 2017, pp. 1025-1032.
WWW Link. 1708
BibRef

Li, Y., Wang, T., Liu, B., Yang, L., Bi, G.,
Ground Moving Target Imaging and Motion Parameter Estimation With Airborne Dual-Channel CSSAR,
GeoRS(55), No. 9, September 2017, pp. 5242-5253.
IEEE DOI 1709
Doppler radar, airborne radar, ground moving target imaging, History, Imaging, Parameter estimation, Radar imaging, Synthetic aperture radar, BibRef

Rashid, M., Dansereau, R.M.,
Cramer-Rao Lower Bound Derivation and Performance Analysis for Space-Based SAR GMTI,
GeoRS(55), No. 11, November 2017, pp. 6031-6043.
IEEE DOI 1711
Antennas, Clutter, Estimation, Satellites, Spaceborne radar, Switches, Synthetic aperture radar, Antenna switching, ground moving-target indication (GMTI), radar detection, radar position estimation, radar signal analysis, BibRef

Chen, J., Xing, M., Sun, G.C., Li, Z.,
A 2-D Space-Variant Motion Estimation and Compensation Method for Ultrahigh-Resolution Airborne Stepped-Frequency SAR With Long Integration Time,
GeoRS(55), No. 11, November 2017, pp. 6390-6401.
IEEE DOI 1711
Azimuth, Bandwidth, Error analysis, Estimation, Image resolution, Motion estimation, Synthetic aperture radar, Chirp-z transform (CZT), long integration time, range block, BibRef

Li, D., Zhan, M., Su, J., Liu, H., Zhang, X., Liao, G.,
Performances Analysis of Coherently Integrated CPF for LFM Signal Under Low SNR and Its Application to Ground Moving Target Imaging,
GeoRS(55), No. 11, November 2017, pp. 6402-6419.
IEEE DOI 1711
Imaging, Maximum likelihood estimation, Radar imaging, Synthetic aperture radar, multiple linear frequency-modulated (LFM) signal, nonuniform fast Fourier transform (NUFFT) BibRef

Rahmanizadeh, A.[Arash], Amini, J.[Jalal],
An Integrated Method for Simulation of Synthetic Aperture Radar (SAR) Raw Data in Moving Target Detection,
RS(9), No. 10, 2017, pp. xx-yy.
DOI Link 1711
BibRef

Park, J.W.[Jeong-Won], Kim, J.H.[Jae Hun], Won, J.S.[Joong-Sun],
Fast and Efficient Correction of Ground Moving Targets in a Synthetic Aperture Radar, Single-Look Complex Image,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
BibRef

Xu, J., Huang, Z.Z., Wang, Z.R., Xiao, L., Xia, X.G., Long, T.,
Radial Velocity Retrieval for Multichannel SAR Moving Targets With Time-Space Doppler Deambiguity,
GeoRS(56), No. 1, January 2018, pp. 35-48.
IEEE DOI 1801
Cathode ray tubes, Doppler effect, Estimation, Linear antenna arrays, Synthetic aperture radar, time domain Doppler ambiguity (TDDA) BibRef

Xu, H., Yang, Z., Tian, M., Sun, Y., Liao, G.,
An Extended Moving Target Detection Approach for High-Resolution Multichannel SAR-GMTI Systems Based on Enhanced Shadow-Aided Decision,
GeoRS(56), No. 2, February 2018, pp. 715-729.
IEEE DOI 1802
Apertures, Clutter, Detection algorithms, Feature extraction, Object detection, Signal to noise ratio, synthetic aperture radar (SAR) BibRef

Wu, W.Z.[Wen-Zhen], Xu, S.Y.[Shi-You], Hu, P.J.[Peng-Jiang], Zou, J.W.[Jiang-Wei], Chen, Z.P.[Zeng-Ping],
Inverse Synthetic Aperture Radar Imaging of Targets with Complex Motion based on Optimized Non-Uniform Rotation Transform,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Montazeri, S., Gisinger, C., Eineder, M., Zhu, X.X.,
Automatic Detection and Positioning of Ground Control Points Using TerraSAR-X Multiaspect Acquisitions,
GeoRS(56), No. 5, May 2018, pp. 2613-2632.
IEEE DOI 1805
Geometry, Orbits, Radar tracking, Satellites, Synthetic aperture radar, Target tracking, Timing, positioning BibRef

Wang, W., An, D., Luo, Y., Zhou, Z.,
The Fundamental Trajectory Reconstruction Results of Ground Moving Target From Single-Channel CSAR Geometry,
GeoRS(56), No. 10, October 2018, pp. 5647-5657.
IEEE DOI 1810
Trajectory, Target tracking, Roads, Synthetic aperture radar, Image reconstruction, Doppler effect, Heuristic algorithms, trajectory reconstruction BibRef

Torgrimsson, J., Dammert, P., Hellsten, H., Ulander, L.M.H.,
SAR Processing Without a Motion Measurement System,
GeoRS(57), No. 2, February 2019, pp. 1025-1039.
IEEE DOI 1901
Geometry, Synthetic aperture radar, Global Positioning System, Tracking, Apertures, Radar tracking, Autofocus, back-projection (BP), Synthetic Aperture Radar (SAR) BibRef

Liu, X., Xu, Z., Dong, W., Wang, L., Li, X.,
Cognitive Resource Allocation for Target Tracking in Location-Aware Radar Networks,
SPLetters(27), 2020, pp. 650-654.
IEEE DOI 2005
Resource management, Radar tracking, Radar cross-sections, Target tracking, Cognitive resource allocation, BibRef

Yang, Z., Xu, H., Huang, P., Liu, A., Tian, M., Liao, G.,
Preliminary Results of Multichannel SAR-GMTI Experiments for Airborne Quad-Pol Radar System,
GeoRS(58), No. 6, June 2020, pp. 3822-3840.
IEEE DOI 2005
Clutter suppression, ground moving target indication (GMTI), polarization enhancement, synthetic aperture radar (SAR) BibRef

Kim, S.W.[Sang-Wan], Won, J.S.[Joong-Sun],
Acceleration Compensation for Estimation of Along-Track Velocity of Ground Moving Target from Single-Channel SAR SLC Data,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Dong, X.C.[Xi-Chao], Cui, C.[Chang], Li, Y.H.[Yuan-Hao], Hu, C.[Cheng],
Geosynchronous Spaceborne-Airborne Bistatic Moving Target Indication System: Performance Analysis and Configuration Design,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Xu, W.[Wei], Wei, Z.B.[Zheng-Bin], Huang, P.P.[Ping-Ping], Tan, W.X.[Wei-Xian], Liu, B.[Bo], Gao, Z.Q.[Zhi-Qi], Dong, Y.F.[Yi-Fan],
Azimuth Multichannel Reconstruction for Moving Targets in Geosynchronous Spaceborne-Airborne Bistatic SAR,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Zhang, Y., Xiong, W., Dong, X., Hu, C.,
A Novel Azimuth Spectrum Reconstruction and Imaging Method for Moving Targets in Geosynchronous Spaceborne-Airborne Bistatic Multichannel SAR,
GeoRS(58), No. 8, August 2020, pp. 5976-5991.
IEEE DOI 2007
Synthetic aperture radar, Azimuth, Doppler effect, Image reconstruction, Imaging, Transmitters, Receivers, velocity SAR (VSAR) BibRef

Li, C., Li, Y., Yang, Y., Pang, C., Wang, X.,
Moving Target's Scattering Matrix Estimation With a Polarimetric Radar,
GeoRS(58), No. 8, August 2020, pp. 5540-5551.
IEEE DOI 2007
Estimation, Radar polarimetry, Phase measurement, Signal to noise ratio, Radar scattering, Moving target, three polarizations (3-Pol) BibRef

Melzi, M., Hu, C., Dong, X., Li, Y., Cui, C.,
Velocity Estimation of Multiple Moving Targets in Single-Channel Geosynchronous SAR,
GeoRS(58), No. 8, August 2020, pp. 5861-5879.
IEEE DOI 2007
Synthetic aperture radar, Doppler effect, Azimuth, Estimation, Satellites, Apertures, Bandwidth, Cubic phase function (CPF), ground moving target velocity estimation (GMTVE) BibRef

Guo, Y., Liao, G., Li, J., Chen, X.,
A Novel Moving Target Detection Method Based on RPCA for SAR Systems,
GeoRS(58), No. 9, September 2020, pp. 6677-6690.
IEEE DOI 2008
Synthetic aperture radar, Sparse matrices, Clutter, Optimization, Estimation, Azimuth, Object detection, synthetic aperture radar (SAR) BibRef

Huan, R.H.[Ruo-Hong], Ge, L.Q.[Luo-Qi], Yang, P.[Peng], Xie, C.J.[Chao-Jie], Chi, K.K.[Kai-Kai], Mao, K.J.[Ke-Ji], Pan, Y.[Yun],
SAR multi-target interactive motion recognition based on convolutional neural networks,
IET-IPR(14), No. 11, September 2020, pp. 2567-2578.
DOI Link 2009
BibRef

Ding, J., Wen, L., Zhong, C., Loffeld, O.,
Video SAR Moving Target Indication Using Deep Neural Network,
GeoRS(58), No. 10, October 2020, pp. 7194-7204.
IEEE DOI 2009
Synthetic aperture radar, Radar imaging, Clustering algorithms, Object detection, Machine learning algorithms, Radar polarimetry, synthetic aperture radar (SAR) BibRef

He, Z.Y.[Zhen-Yu], Yang, Y.[Yang], Chen, W.[Wu], Weng, D.J.[Duo-Jie],
Moving Target Imaging Using GNSS-Based Passive Bistatic Synthetic Aperture Radar,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Yu, L.[Lei], Li, C.S.[Chun-Sheng], Chen, J.[Jie], Wang, P.B.[Peng-Bo], Men, Z.R.[Zhi-Rong],
Refocusing High-Resolution SAR Images of Complex Moving Vessels Using Co-Evolutionary Particle Swarm Optimization,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Tao, J.W.[Jian-Wu], Yang, C.Z.[Cheng-Zhi], Xu, C.W.[Cheng-Wei],
Estimation of PRI Stagger in Case of Missing Observations,
GeoRS(58), No. 11, November 2020, pp. 7982-8001.
IEEE DOI 2011
Estimation, Jitter, Frequency estimation, Correlation, Discrete Fourier transforms, Synthetic aperture radar, PRI stagger BibRef

Zeng, H.C.[Hong-Cheng], Chen, J.[Jie], Wang, P.B.[Peng-Bo], Liu, W.[Wei], Zhou, X.K.[Xin-Kai], Yang, W.[Wei],
Moving Target Detection in Multi-Static GNSS-Based Passive Radar Based on Multi-Bernoulli Filter,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Solari, L.[Lorenzo], Montalti, R.[Roberto], Barra, A.[Anna], Monserrat, O.[Oriol], Bianchini, S.[Silvia], Crosetto, M.[Michele],
Multi-Temporal Satellite Interferometry for Fast-Motion Detection: An Application to Salt Solution Mining,
RS(12), No. 23, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Leibovich, M.[Matan], Papanicolaou, G.[George], Tsogka, C.[Chrysoula],
Synthetic Aperture Imaging and Motion Estimation Using Tensor Methods,
SIIMS(13), No. 4, 2020, pp. 2213-2249.
DOI Link 2012
BibRef

Wan, J.[Jun], Tan, X.H.[Xiao-Heng], Chen, Z.Y.[Zhan-Ye], Li, D.[Dong], Liu, Q.H.[Qing-Hua], Zhou, Y.[Yu], Zhang, L.R.[Lin-Rang],
Refocusing of Ground Moving Targets with Doppler Ambiguity Using Keystone Transform and Modified Second-Order Keystone Transform for Synthetic Aperture Radar,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Dong, X.[Xichao], Cui, C.[Chang], Tian, W.M.[Wei-Ming], Li, Y.H.[Yuan-Hao], Mounir, M.[Melzi], Hu, C.[Cheng],
Moving Target Detection and Parameter Estimation via a Modified Imaging STAP with a Large Baseline in Multistatic GEO SAR,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102
BibRef

Li, H.W.[Hong-Wei], Li, C.[Chao], Wu, S.Y.[Shi-You], Zheng, S.[Shen], Fang, G.Y.[Guang-You],
Adaptive 3D Imaging for Moving Targets Based on a SIMO InISAR Imaging System in 0.2 THz Band,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Fiscante, N.[Nicomino], Addabbo, P.[Pia], Clemente, C.[Carmine], Biondi, F.[Filippo], Giunta, G.[Gaetano], Orlando, D.[Danilo],
A Track-Before-Detect Strategy Based on Sparse Data Processing for Air Surveillance Radar Applications,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Lee, M.J., Lee, S.J., Ryu, B.H., Lim, B.G., Kim, K.T.,
Reduction of False Alarm Rate in SAR-MTI Based on Weighted Kurtosis,
GeoRS(59), No. 4, April 2021, pp. 3122-3135.
IEEE DOI 2104
Clutter, Synthetic aperture radar, Antennas, Detectors, Data models, Antenna measurements, Displaced phase center antenna, moving target indication (MTI) BibRef

Tian, M.M.[Ming-Ming], Liao, G.S.[Gui-Sheng], Zhu, S.Q.[Sheng-Qi], He, X.P.[Xiong-Peng], Liu, Y.J.[Yong-Jun], Li, Y.P.[Yun-Peng],
An Efficient Method for Ground Maneuvering Target Refocusing and Motion Parameter Estimation Based on DPT-KT-MFP,
RS(13), No. 6, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Yang, K.X.[Kai-Xian], Zhang, L.[Ling], Niu, J.[Jiong], Ji, Y.G.[Yong-Gang], Wu, Q.M.J.[Q. M. Jonathan],
Analysis and Estimation of Shipborne HFSWR Target Parameters Under the Influence of Platform Motion,
GeoRS(59), No. 6, June 2021, pp. 4703-4716.
IEEE DOI 2106
Antenna arrays, Delay effects, Demodulation, Surges, Radar, Mathematical model, Azimuth estimation, distance estimation, velocity estimation BibRef

Han, J.S.[Jiu-Sheng], Cao, Y.H.[Yun-He], Yeo, T.S.[Tat-Soon], Wang, F.F.[Feng-Fei],
Robust Clutter Suppression and Ground Moving Target Imaging Method for a Multichannel SAR with High-Squint Angle Mounted on Hypersonic Vehicle,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Yang, Z.J.[Zhi-Jun], Li, D.[Dong], Tan, X.H.[Xiao-Heng], Liu, H.Q.[Hong-Qing], Liu, Y.C.[Yu-Chuan], Liao, G.S.[Gui-Sheng],
ISAR Imaging for Maneuvering Targets with Complex Motion Based on Generalized Radon-Fourier Transform and Gradient-Based Descent under Low SNR,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Li, Y.K.[Yong-Kang], Wang, T.[Tong], Huo, T.[Tianyu], Nie, L.[Laisen],
A Study on the Range Equation Modeling for Multichannel Medium-Earth-Orbit SAR-GMTI Systems,
RS(13), No. 14, 2021, pp. xx-yy.
DOI Link 2107
Ground moving target indication. BibRef

He, Z.H.[Zhi-Hua], Li, Z.[Zihan], Chen, X.[Xing], Yu, A.X.[An-Xi], Yi, T.Z.[Tian-Zhu], Dong, Z.[Zhen],
Detecting Moving Target on Ground Based on Its Shadow by Using VideoSAR,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Zheng, J.[Jibin], Zhu, K.[Kangle], Niu, Z.Y.[Zhi-Yong], Liu, H.W.[Hong-Wei], Liu, Q.H.[Qing Huo],
Generalized Dechirp-Keystone Transform for Radar High-Speed Maneuvering Target Detection and Localization,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Ye, P.[Pei], Xing, M.D.[Meng-Dao], Xia, X.G.[Xiang-Gen], Sun, G.C.[Guang-Cai], Li, Y.C.[Ya-Chao], Gao, Y.X.[Yue-Xin],
ISAR Signal Tracking and High-Resolution Imaging by Kalman Filtering,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Jing, H.[He], Cheng, Y.Q.[Yong-Qiang], Wu, H.[Hao], Wang, H.Q.[Hong-Qiang],
Adaptive Network Detector for Radar Target in Changing Scenes,
RS(13), No. 18, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Zhang, P.[Peng], Boudaren, M.E.[Mohamed El_Yazid], Jiang, Y.Y.[Yin-Yin], Song, W.Y.[Wan-Ying], Li, B.B.[Bei-Bei], Li, M.[Ming], Wu, Y.[Yan],
High-Order Triplet CRF-PCANet for Unsupervised Segmentation of Nonstationary SAR Image,
GeoRS(59), No. 10, October 2021, pp. 8433-8454.
IEEE DOI 2109
Image segmentation, Radar polarimetry, Feature extraction, Biological system modeling, Analytical models, Labeling, unsupervised segmentation BibRef

He, X.Y.[Xing-Yu], Tong, N.N.[Ning-Ning], Liu, T.[Tao],
Moving target inverse synthetic aperture radar image resolution enhancement based on two-dimensional block sparse signal reconstruction,
IET-IPR(15), No. 13, 2021, pp. 3153-3159.
DOI Link 2110
BibRef

Li, Y.L.[Yu-Lun], Li, C.S.[Chun-Sheng], Peng, X.D.[Xiao-Dong], Li, S.[Shuo], Zeng, H.C.[Hong-Cheng], Yang, W.[Wei],
Phase-Based GLRT Detection of Moving Targets with Pixel Tracking in Low-Resolution SAR Image Sequences,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
Generalized Likelihood Ratio Test. BibRef

Xiong, S.C.[Shi-Chao], Ni, J.C.[Jia-Cheng], Zhang, Q.[Qun], Luo, Y.[Ying], Yu, L.Q.[Long-Qiang],
Ground Moving Target Imaging for Highly Squint SAR by Modified Minimum Entropy Algorithm and Spectrum Rotation,
RS(13), No. 21, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Chen, H.M.[Hong-Meng], Wang, Z.[Zeyu], Gao, W.Q.[Wen-Quan], Sun, H.[Hanwei], Lu, Y.B.[Yao-Bing], Li, Y.C.[Ya-Chao],
Knowledge-Aided Ground Moving Target Relocation for Airborne Dual-Channel Wide-Area Radar by Exploiting the Antenna Pattern Information,
RS(13), No. 22, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Zhou, Y.Y.[Yuan-Yuan], Shi, J.[Jun], Wang, C.[Chen], Hu, Y.[Yao], Zhou, Z.[Zenan], Yang, X.[Xiaqing], Zhang, X.L.[Xiao-Ling], Wei, S.[Shunjun],
SAR Ground Moving Target Refocusing by Combining mRe³ Network and TVß-LSTM,
GeoRS(60), 2022, pp. 1-14.
IEEE DOI 2112
Synthetic aperture radar, Radar tracking, Trajectory, Target tracking, Imaging, Smoothing methods, TV, synthetic aperture radar (SAR) BibRef

Zhang, J.[Juan], Ding, T.[Tong], Zhang, L.R.[Lin-Rang],
Longtime Coherent Integration Algorithm for High-Speed Maneuvering Target Detection Using Space-Based Bistatic Radar,
GeoRS(60), 2022, pp. 1-16.
IEEE DOI 2112
Bistatic radar, Radar, Spaceborne radar, Receivers, Transmitters, Radar detection, Analytical models, Coherent integration, space-based bistatic radar BibRef

Mu, H.L.[Hui-Lin], Zhang, Y.[Yun], Jiang, Y.C.[Yi-Cheng], Ding, C.[Chang],
CV-GMTINet: GMTI Using a Deep Complex-Valued Convolutional Neural Network for Multichannel SAR-GMTI System,
GeoRS(60), 2022, pp. 1-15.
IEEE DOI 2112
ground moving target indication. Clutter, Radar polarimetry, Synthetic aperture radar, Radar imaging, Doppler effect, Task analysis, Imaging, synthetic aperture radar (SAR) BibRef

Qian, J.[Jiang], Huang, S.[Shaoyin], Wang, L.[Lu], Bi, G.[Guoan], Yang, X.B.[Xiao-Bo],
Super-Resolution ISAR Imaging for Maneuvering Target Based on Deep-Learning-Assisted Time-Frequency Analysis,
GeoRS(60), 2022, pp. 1-14.
IEEE DOI 2112
Radar imaging, Imaging, Radar, Superresolution, Neural networks, Noise reduction, Doppler effect, Deep learning, denoising, super-resolution BibRef

Ren, Y.[Yi], Tang, S.Y.[Shi-Yang], Guo, P.[Ping], Zhang, L.R.[Lin-Rang], So, H.C.[Hing Cheung],
2-D Spatially Variant Motion Error Compensation for High-Resolution Airborne SAR Based on Range-Doppler Expansion Approach,
GeoRS(60), 2022, pp. 1-13.
IEEE DOI 2112
Synthetic aperture radar, Imaging, Atmospheric modeling, Azimuth, Apertures, Trajectory, Doppler effect, 2-D range-Doppler expansion, motion error compensation BibRef

Qu, K.[Kui], Zhang, R.[Rongfu], Fang, Z.J.[Zhi-Jun],
High Accuracy Motion Detection Algorithm via ISM Band FMCW Radar,
RS(14), No. 1, 2022, pp. xx-yy.
DOI Link 2201
BibRef

Li, Y.K.[Yong-Kang], Huo, T.[Tianyu], Yang, C.X.[Chen-Xi], Wang, T.[Tong], Wang, J.[Juan], Li, B.[Beiyu],
An Efficient Ground Moving Target Imaging Method for Airborne Circular Stripmap SAR,
RS(14), No. 1, 2022, pp. xx-yy.
DOI Link 2201
BibRef

Richter, Y.[Yair], Gerasimov, J.[Jacob], Balal, N.[Nezah], Pinhasi, Y.[Yosef],
Tracking of Evasive Objects Using Bistatic Doppler Radar Operating in the Millimeter Wave Regime,
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Zhou, L.M.[Li-Ming], Zhang, X.L.[Xiao-Ling], Pu, L.M.[Li-Ming], Zhang, T.W.[Tian-Wen], Shi, J.[Jun], Wei, S.J.[Shun-Jun],
A High-Precision Motion Errors Compensation Method Based on Sub-Image Reconstruction for HRWS SAR Imaging,
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Ai, X.F.[Xiao-Feng], Zheng, Y.Q.[Yu-Qing], Xu, Z.M.[Zhi-Ming], Zhao, F.[Feng],
Parameter Estimation for Uniformly Accelerating Moving Target in the Forward Scatter Radar Network,
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Ran, L.[Lei], Liu, Z.[Zheng], Xie, R.[Rong],
Ground Maneuvering Target Focusing via High-Order Phase Correction in High-Squint Synthetic Aperture Radar,
RS(14), No. 6, 2022, pp. xx-yy.
DOI Link 2204
BibRef

Zhang, Z.N.[Zhen-Ning], Yu, W.D.[Wei-Dong], Zheng, M.J.[Ming-Jie], Zhao, L.B.[Liang-Bo], Zhou, Z.X.[Zi-Xuan],
Robust Clutter Suppression and Radial Velocity Estimation for High-Resolution Wide-Swath SAR-GMTI,
RS(14), No. 7, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Zhang, H.W.[Hong-Wei], Ni, J.C.[Jia-Cheng], Xiong, S.C.[Shi-Chao], Luo, Y.[Ying], Zhang, Q.[Qun],
Omega-KA-Net: A SAR Ground Moving Target Imaging Network Based on Trainable Omega-K Algorithm and Sparse Optimization,
RS(14), No. 7, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Chen, L.[Luwei], Ni, J.C.[Jia-Cheng], Luo, Y.[Ying], He, Q.F.[Qi-Fang], Lu, X.F.[Xiao-Fei],
Sparse SAR Imaging Method for Ground Moving Target via GMTSI-Net,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Liu, F.K.[Feng-Kai], Huang, D.[Darong], Guo, X.R.[Xin-Rong], Feng, C.Q.[Cun-Qian],
Unambiguous ISAR Imaging Method for Complex Maneuvering Group Targets,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Zhang, S.Y.[Shi-Yu], Zhou, Y.[Yu], Sha, M.H.[Ming-Hui], Zhang, L.[Linrang], Du, L.[Lan],
Moving Multitarget Detection Using a Multisite Radar System with Widely Separated Stations,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Cao, X.M.[Xiao-Meng], Lan, J.[Jian], Li, X.R.[X. Rong], Liu, Y.[Yu],
Automotive Radar-Based Vehicle Tracking Using Data-Region Association,
ITS(23), No. 7, July 2022, pp. 8997-9010.
IEEE DOI 2207
Radar tracking, Radar, Scattering, Radar measurements, Automotive engineering, Shape, Noise measurement, Vehicle tracking, object extension BibRef

Lu, T.K.[Ting-Kun], He, F.[Feng], Yu, L.[Lei], Wu, M.Q.[Man-Qing],
A Variable-Scale Coherent Integration Method for Moving Target Detection in Wideband Radar,
RS(14), No. 13, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Shu, Y.X.[Yu-Xiang], Wan, J.[Jun], Li, D.[Dong], Chen, Z.[Zhanye], Liu, H.Q.[Hong-Qing],
Fast Approach for SAR Imaging of Ground-Based Moving Targets Based on Range Azimuth Joint Processing,
RS(14), No. 13, 2022, pp. xx-yy.
DOI Link 2208
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Song, C.[Chong], Wang, B.N.[Bing-Nan], Xiang, M.S.[Mao-Sheng], Xu, W.[Weidi], Wang, Z.B.[Zhong-Bin], Wang, Y.[Yachao], Sun, X.F.[Xiao-Fan],
Ground Moving Target Detection and Estimation for Airborne Multichannel Radar Based on Coherent Difference Processing,
RS(14), No. 14, 2022, pp. xx-yy.
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Song, J.[Jie], Xiong, W.[Wei], Chen, X.L.[Xiao-Long], Lu, Y.[Yuan],
Experimental Study of Maritime Moving Target Detection Using Hitchhiking Bistatic Radar,
RS(14), No. 15, 2022, pp. xx-yy.
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Lin, J.Y.[Jia-Ying], Diekmann, P.[Phillip], Framing, C.E.[Christian-Eike], Zweigel, R.[René], Abel, D.[Dirk],
Maritime Environment Perception Based on Deep Learning,
ITS(23), No. 9, September 2022, pp. 15487-15497.
IEEE DOI 2209
Laser radar, Point cloud compression, Artificial intelligence, Radar tracking, Radar, Object detection, Detectors, Kalman filters BibRef

Novák, D.[David], Gregor, L.[Ladislav], Veselý, J.[Jirí],
Capability of a Ground-Based Passive Surveillance System to Detect and Track Spaceborne SAR in LEO Orbits,
RS(14), No. 18, 2022, pp. xx-yy.
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Li, W.Z.[Wen-Zhe], Yuan, Y.X.[Yan-Xin], Zhang, Y.[Yuanpeng], Luo, Y.[Ying],
Unblurring ISAR Imaging for Maneuvering Target Based on UFGAN,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
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Gu, Y.[Yao], Wu, J.X.[Jian-Xin], Fang, Y.Y.[Yu-Yuan], Zhang, L.[Lei], Zhang, Q.[Qiang],
End-to-End Moving Target Indication for Airborne Radar Using Deep Learning,
RS(14), No. 21, 2022, pp. xx-yy.
DOI Link 2212
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Xu, X.G.[Xu-Guang], Feng, C.[Cunqian], Han, L.[Lixun],
Classification of Radar Targets with Micro-Motion Based on RCS Sequences Encoding and Convolutional Neural Network,
RS(14), No. 22, 2022, pp. xx-yy.
DOI Link 2212
Radar cross section (RCS) sequences. BibRef

Bu, L.J.[Li-Jun], Zhu, Y.Z.[Yong-Zhong], Chen, Y.J.[Yi-Jun], Song, X.[Xiaoou], Yang, Y.F.[Yu-Fei], Zang, Y.[Yadan],
Micro-Motion Parameter Extraction of Multi-Scattering-Point Target Based on Vortex Electromagnetic Wave Radar,
RS(14), No. 23, 2022, pp. xx-yy.
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Han, Y.Q.[Ya-Quan], Jiao, R.Z.[Run-Zhi], Huang, H.F.[Hai-Feng], Wang, Q.S.[Qing-Song], Lai, T.[Tao],
A Framework for Distributed LEO SAR Air Moving Target 3D Imaging via Spectral Estimation,
RS(14), No. 23, 2022, pp. xx-yy.
DOI Link 2212
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Esmaeilbeig, Z.[Zahra], Mishra, K.V.[Kumar Vijay], Eamaz, A.[Arian], Soltanalian, M.[Mojtaba],
Cramér-Rao Lower Bound Optimization for Hidden Moving Target Sensing via Multi-IRS-Aided Radar,
SPLetters(29), 2022, pp. 2422-2426.
IEEE DOI 2212
Wireless communication, Reflectivity, Wireless sensor networks, Phase measurement, Estimation, Doppler radar, Sensors, A-optimality, radar BibRef

Chen, Y.Q.[Yi-Qi], Wei, P.[Ping], Zhang, H.G.[Hua-Guo], You, M.Y.[Ming-Yi], Li, W.C.[Wan-Chun],
Direct Target Joint Detection and Tracking Based on Passive Multi-Static Radar,
RS(15), No. 3, 2023, pp. xx-yy.
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Zou, T.[Tao], Situ, W.[Weilun], Yang, W.[Wenlin], Zeng, W.X.[Wei-Xiang], Wang, Y.[Yunting],
A Method for Long-Term Target Anti-Interference Tracking Combining Deep Learning and CKF for LARS Tracking and Capturing,
RS(15), No. 3, 2023, pp. xx-yy.
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Gao, W.N.[Wen-Ning], Yue, F.Z.[Fu-Zhan], Xia, Z.H.[Zheng-Huan], Liu, X.[Xin], Zhang, C.[Chuang], Liu, Z.Q.[Zong-Qiang], Jin, S.C.[Shi-Chao], Zhang, Y.[Yao], Zhao, Z.L.[Zhi-Long], Zhang, T.[Tao], Zhang, Y.[Ying],
Weak Signal Processing Method for Moving Target of GNSS-S Radar Based on Amplitude and Phase Self-Correction,
RS(15), No. 4, 2023, pp. xx-yy.
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Bosma, D.A.[Detmer A.], Krasnov, O.A.[Oleg A.], Yarovoy, A.[Alexander],
An Advanced Data Processing Algorithm for Extraction of Polarimetric Radar Signatures of Moving Automotive Vehicles Using the H/A/alpha Decomposition Technique,
RS(15), No. 4, 2023, pp. xx-yy.
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Shen, W.J.[Wen-Jie], Wang, Y.P.[Yan-Ping], Lin, Y.[Yun], Li, Y.[Yang], Jiang, W.[Wen], Hong, W.[Wen],
Range-Doppler Based Moving Target Image Trace Analysis Method in Circular SAR,
RS(15), No. 8, 2023, pp. 2073.
DOI Link 2305
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Cai, B.[Bin], Hao, X.L.[Xiao-Long], Chen, L.[Li], Liang, J.[Jia], Cheng, T.H.[Tian-Hao], Luo, Y.[Ying],
A Priori Knowledge Based Ground Moving Target Indication Technique Applied to Distributed Spaceborne SAR System,
RS(15), No. 9, 2023, pp. xx-yy.
DOI Link 2305
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Fowdur, J.S.[Jaya Shradha], Baum, M.[Marcus], Heymann, F.[Frank], Banys, P.[Pawel],
An Overview of the PAKF-JPDA Approach for Elliptical Multiple Extended Target Tracking Using High-Resolution Marine Radar Data,
RS(15), No. 10, 2023, pp. xx-yy.
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Li, G.Z.[Gong-Zhe], Pan, L.P.[Lin-Peng], Qiu, L.W.[Lin-Wei], Tan, Z.W.[Zhi-Wen], Xie, F.Y.[Feng-Ying], Zhang, H.P.[Hao-Peng],
A Two-Stage Shake-Shake Network for Long-Tailed Recognition of SAR Aerial View Objects,
PBVS22(248-255)
IEEE DOI 2210
Training, Representation learning, Feature extraction, Radar tracking, Radar polarimetry, Pattern recognition, Task analysis BibRef

Gasperini, S.[Stefano], Koch, P.[Patrick], Dallabetta, V.[Vinzenz], Navab, N.[Nassir], Busam, B.[Benjamin], Tombari, F.[Federico],
R4Dyn: Exploring Radar for Self-Supervised Monocular Depth Estimation of Dynamic Scenes,
3DV21(751-760)
IEEE DOI 2201
Training, Laser radar, Filtering, Estimation, Training data, Radar, monocular depth estimation, self supervised, radar, autonomous driving BibRef

Liu, Z.Y., Chen, R.Z., Ye, F., Guo, G.Y., Huang, L.X.,
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Yang, B.[Bin], Guo, R.[Runsheng], Liang, M.[Ming], Casas, S.[Sergio], Urtasun, R.[Raquel],
Radarnet: Exploiting Radar for Robust Perception of Dynamic Objects,
ECCV20(XVIII:496-512).
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Mostajabi, M.[Mohammadreza], Wang, C.M.[Ching Ming], Ranjan, D.[Darsh], Hsyu, G.[Gilbert],
High Resolution Radar Dataset for Semi-Supervised Learning of Dynamic Objects,
PBVS20(450-457)
IEEE DOI 2008
Dataset, Radar. Synthetic aperture radar, Radar imaging, Spaceborne radar, Image resolution, Apertures, Azimuth BibRef

Smith, B.M., O'Toole, M., Gupta, M.,
Tracking Multiple Objects Outside the Line of Sight Using Speckle Imaging,
CVPR18(6258-6266)
IEEE DOI 1812
Speckle, Tracking, Nonlinear optics, Cameras, Robot sensing systems, Histograms BibRef

Xie, H., Shi, S., Li, F.[Fuhai], An, D.X.[Dao-Xiang], Huang, X., Zhou, Z., Wang, G.Q.[Guo-Qian],
Comparison of imaging properties between monostatic and bistatic circular SAR,
ICIVC17(601-605)
IEEE DOI 1708
Geometry, Image resolution, Imaging, Radar imaging, Radar tracking, Synthetic aperture radar, bistatic CSAR, circular synthetic aperture radar (CSAR), imaging property, resolution, wavenumber BibRef

Marques, P., Dias, J.,
Imaging of Fast Moving Targets Using Undersampled SAR Raw-Data,
ICIP01(III: 624-627).
IEEE DOI 0108
BibRef

Marques, P.,
Moving Targets in Synthetic Aperture Images: A Bayesian Approach,
ICIP00(Vol I: 685-688).
IEEE DOI 0008
BibRef

Song, Y., Blostein, S.,
Unknown Target Motion Compensation for Spotlight-mode Synthetic Aperture Radar Imagery,
ICIP00(Vol I: 689-692).
IEEE DOI 0008
BibRef

Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
ATR -- Model, Object Based Radar and SAR Recognition .

Last update:Jun 1, 2023 at 10:05:03