22.9.6.2 Moving Targets, Radar, Radar Tracking, SAR Applications

Soumekh, M.,
Moving Target Detection in Foliage Using Along-Track Monopulse Synthetic-Aperture Radar Imaging,
IP(6), No. 8, August 1997, pp. 1148-1163.
IEEE DOI 9708
BibRef

Jao, J.K.[Jen King],
Theory of synthetic aperture radar imaging of a moving target,
GeoRS(39), No. 9, September 2001, pp. 1984-1992.
IEEE Top Reference. 0111
BibRef

Lam, L.K.[Larry K.],
System and method for moving target detection,
US_Patent6,697,010, Feb 24, 2004
WWW Link. BibRef 0402

Folster, F., Rohling, H.,
Data association and tracking for automotive radar networks,
ITS(6), No. 4, December 2005, pp. 370-377.
IEEE DOI 0601
BibRef

Ruegg, M., Meier, E., Nuesch, D.,
Capabilities of Dual-Frequency Millimeter Wave SAR With Monopulse Processing for Ground Moving Target Indication,
GeoRS(45), No. 3, March 2007, pp. 539-553.
IEEE DOI 0703
BibRef

Li, G., Xu, J., Peng, Y.N., Xia, X.G.,
Bistatic Linear Antenna Array SAR for Moving Target Detection, Location, and Imaging With Two Passive Airborne Radars,
GeoRS(45), No. 3, March 2007, pp. 554-565.
IEEE DOI 0703
BibRef

Vu, V.T., Sjogren, T.K., Pettersson, M.I., Gustavsson, A., Ulander, L.M.H.,
Detection of Moving Targets by Focusing in UWB SAR: Theory and Experimental Results,
GeoRS(48), No. 10, October 2010, pp. 3799-3815.
IEEE DOI 1003
BibRef

Zhu, S., Liao, G., Qu, Y., Liu, X., Zhou, Z.,
A New Slant-Range Velocity Ambiguity Resolving Approach of Fast Moving Targets for SAR System,
GeoRS(48), No. 1, January 2010, pp. 432-451.
IEEE DOI 1001
BibRef

Zhu, S., Liao, G., Qu, Y., Zhou, Z., Liu, X.,
Ground Moving Targets Imaging Algorithm for Synthetic Aperture Radar,
GeoRS(49), No. 1, January 2011, pp. 462-477.
IEEE DOI 1101
BibRef

Engen, G., Larsen, Y.,
Efficient Full Aperture Processing of TOPS Mode Data Using the Moving Band Chirp Z-Transform,
GeoRS(49), No. 10, October 2011, pp. 3688-3693.
IEEE DOI 1110
BibRef

Cheney, M.[Margaret], Borden, B.[Brett],
Theory of Waveform-Diverse Moving-Target Spotlight Synthetic-Aperture Radar,
SIIMS(4), No. 4 2011, pp. 1180.
DOI Link 1112
BibRef

Guo, B.[Bin], Vu, D.[Duc], Xu, L.Z.[Lu-Zhou], Xue, M.[Ming], Li, J.[Jian],
Ground Moving Target Indication via Multichannel Airborne SAR,
GeoRS(49), No. 10, October 2011, pp. 3753-3764.
IEEE DOI 1110
BibRef

Henke, D., Magnard, C., Frioud, M., Small, D., Meier, E., Schaepman, M.E.,
Moving-Target Tracking in Single-Channel Wide-Beam SAR,
GeoRS(50), No. 11, November 2012, pp. 4735-4747.
IEEE DOI 1210
BibRef

Henke, D., Mendez Dominguez, E., Small, D., Schaepman, M.E., Meier, E.,
Moving Target Tracking in Single- and Multichannel SAR,
GeoRS(53), No. 6, June 2015, pp. 3146-3159.
IEEE DOI 1503
feature extraction BibRef

Henke, D., Dominguez, E.M.[E. Mendez], Small, D., Schaepman, M.E., Meier, E.,
Moving Target Tracking in SAR Data Using Combined Exo- and Endo-Clutter Processing,
GeoRS(56), No. 1, January 2018, pp. 251-263.
IEEE DOI 1801
Azimuth, Clutter, Radar tracking, Roads, Synthetic aperture radar, Target tracking, Trajectory, tracking filters BibRef

Casalini, E., Frioud, M., Small, D., Henke, D.,
Refocusing FMCW SAR Moving Target Data in the Wavenumber Domain,
GeoRS(57), No. 6, June 2019, pp. 3436-3449.
IEEE DOI 1906
Synthetic aperture radar, Focusing, Azimuth, Entropy, Frequency-domain analysis, Geometry, wavenumber domain algorithm (WDA) BibRef

Wang, W.Q.,
Moving-Target Tracking by Cognitive RF Stealth Radar Using Frequency Diverse Array Antenna,
GeoRS(54), No. 7, July 2016, pp. 3764-3773.
IEEE DOI 1606
Antenna arrays BibRef

Xu, L.Z.[Lu-Zhou], Gianelli, C., Li, J.,
Long-CPI Multichannel SAR-Based Ground Moving Target Indication,
GeoRS(54), No. 9, September 2016, pp. 5159-5170.
IEEE DOI 1609
object detection BibRef

Cristallini, D., Pastina, D., Colone, F., Lombardo, P.,
Efficient Detection and Imaging of Moving Targets in SAR Images Based on Chirp Scaling,
GeoRS(51), No. 4, April 2013, pp. 2403-2416.
IEEE DOI 1304
BibRef

Pipia, L., Fabregas, X., Aguasca, A., Lopez-Martinez, C.,
Polarimetric Temporal Analysis of Urban Environments With a Ground-Based SAR,
GeoRS(51), No. 4, April 2013, pp. 2343-2360.
IEEE DOI 1304
Continuous monitoring. BibRef

Li, H.[Haiyan], Perrie, W., He, Y.J.[Yi-Jun], Lehner, S., Brusch, S.,
Target Detection on the Ocean With the Relative Phase of Compact Polarimetry SAR,
GeoRS(51), No. 6, 2013, pp. 3299-3305.
IEEE DOI 1307
object detection BibRef

Arii, M.,
Efficient Motion Compensation of a Moving Object on SAR Imagery Based on Velocity Correlation Function,
GeoRS(52), No. 2, February 2014, pp. 936-946.
IEEE DOI 1402
airborne radar BibRef

Du, Y., Wei, P.,
An Explicit Solution for Target Localization in Noncoherent Distributed MIMO Radar Systems,
SPLetters(21), No. 9, Sept 2014, pp. 1093-1097.
IEEE DOI 1406
Covariance matrices BibRef

Yang, J.[Jian], Liu, C.[Chang], Wang, Y.F.[Yan-Fei],
Detection and Imaging of Ground Moving Targets With Real SAR Data,
GeoRS(53), No. 2, February 2015, pp. 920-932.
IEEE DOI 1411
image classification BibRef

Zhang, W., Li, K., Jiang, W.,
Parameter Estimation of Radar Targets with Macro-Motion and Micro-Motion Based on Circular Correlation Coefficients,
SPLetters(22), No. 5, May 2015, pp. 633-637.
IEEE DOI 1411
Correlation coefficient BibRef

Wang, X.R.[Xiang-Rong], Aboutanios, E., Amin, M.G.,
Reduced-Rank STAP for Slow-Moving Target Detection by Antenna-Pulse Selection,
SPLetters(22), No. 8, August 2015, pp. 1156-1160.
IEEE DOI 1502
airborne radar BibRef

Chen, X.L.[Xiao-Long], Guan, J.[Jian], Huang, Y.[Yong], Liu, N.B.[Ning-Bo], He, Y.[You],
Radon-Linear Canonical Ambiguity Function-Based Detection and Estimation Method for Marine Target With Micromotion,
GeoRS(53), No. 4, April 2015, pp. 2225-2240.
IEEE DOI 1502
Doppler radar BibRef

Noviello, C., Fornaro, G., Martorella, M.,
Focused SAR Image Formation of Moving Targets Based on Doppler Parameter Estimation,
GeoRS(53), No. 6, June 2015, pp. 3460-3470.
IEEE DOI 1503
radar imaging BibRef

Budillon, A.[Alessandra], Schirinzi, G.[Gilda],
Performance Evaluation of a GLRT Moving Target Detector for TerraSAR-X Along-Track Interferometric Data,
GeoRS(53), No. 6, June 2015, pp. 3350-3360.
IEEE DOI 1503
remote sensing BibRef

Gao, G.[Gui], Shi, G.[Gongtao], Yang, L.[Lei], Zhou, S.L.[Shi-Lin],
Moving Target Detection Based on the Spreading Characteristics of SAR Interferograms in the Magnitude-Phase Plane,
RS(7), No. 2, 2015, pp. 1836-1854.
DOI Link 1503
BibRef

Gao, G.[Gui], Shi, G.[Gongtao],
The CFAR Detection of Ground Moving Targets Based on a Joint Metric of SAR Interferogram's Magnitude and Phase,
GeoRS(50), No. 9, September 2012, pp. 3618-3624.
IEEE DOI 1209
BibRef

Garren, D.A.,
Theory of Two-Dimensional Signature Morphology for Arbitrarily Moving Surface Targets in Squinted Spotlight Synthetic Aperture Radar,
GeoRS(53), No. 9, September 2015, pp. 4997-5008.
IEEE DOI 1506
Apertures BibRef

Garren, D.A.,
Signature Morphology Effects of Squint Angle for Arbitrarily Moving Surface Targets in Spotlight Synthetic Aperture Radar,
GeoRS(53), No. 11, November 2015, pp. 6241-6251.
IEEE DOI 1509
remote sensing by radar BibRef

Yang, L.[Lei], Bi, G.[Guoan], Xing, M.D.[Meng-Dao], Zhang, L.[Liren],
Airborne SAR Moving Target Signatures and Imagery Based on LVD,
GeoRS(53), No. 11, November 2015, pp. 5958-5971.
IEEE DOI 1509
radar imaging 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

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

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

Guérin, C.A., Poisson, J.C., Piras, F., Amarouche, L., Lalaurie, J.C.,
Ku-/Ka-Band Extrapolation of the Altimeter Cross Section and Assessment With Jason2/AltiKa Data,
GeoRS(55), No. 10, October 2017, pp. 5679-5686.
IEEE DOI 1710
extrapolation, radar altimetry, radar cross-sections, radar tracking, remote sensing by radar, GO4 model, 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

Ustun, D., Toktas, A.,
Translational Motion Compensation for ISAR Images Through a Multicriteria Decision Using Surrogate-Based Optimization,
GeoRS(58), No. 6, June 2020, pp. 4365-4374.
IEEE DOI 2005
Entropy, inverse synthetic aperture radar (ISAR), motion compensation (MC), optimization methods, radar imaging, surrogate-based optimization (SbO) 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.[Yifan],
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

Zhu, D.[Di], Niu, J.[Jiong], Li, M.[Ming], Zhang, L.[Ling], Ji, Y.G.[Yong-Gang], Wu, Q.M.J.[Q. M. Jonathan],
Motion Parameter Identification and Motion Compensation for Shipborne HFSWR by Using the Reference RF Signal Generated at the Shore,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009
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

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 Remote Sensing, Cartography, Aerial Images, Buildings, Roads, Terrain, ATR continues in
ATR -- Model, Object Based Radar and SAR Recognition .