4.12.7.4 Interferometric SAR, Moving Targets, Maneuvering Targets, Motion Effects

Chapter Contents (Back)
SAR. Shape from Radar. SAR Generally, target detection: Moving Targets:
See also Moving Targets, Radar, Radar Tracking, SAR Applications.

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Wang, G.Y.[Gen-Yuan], Xia, X.G.[Xiang-Gen], Chen, V.C.,
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Ouchi, K., Iehara, M., Morimura, K., Kumano, S., Takami, I.,
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GeoRS(40), No. 10, October 2002, pp. 2188-2195.
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Wang, G.Y.[Gen-Yuan], Xia, X.G.[Xiang-Gen], Chen, V.C.,
Radar imaging of moving targets in foliage using multifrequency multiaperture polarimetric SAR,
GeoRS(41), No. 8, August 2003, pp. 1755-1764.
IEEE Abstract. 0308
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Zhang, Q., Yeo, T.S., Du, G., Zhang, S.H.,
Estimation of Three-Dimensional Motion Parameters in Interferometric ISAR Imaging,
GeoRS(42), No. 2, February 2004, pp. 292-300.
IEEE Abstract. 0403
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Zhang, Q., Yeo, T.S., Tan, H.S., Luo, Y.,
Imaging of a Moving Target With Rotating Parts Based on the Hough Transform,
GeoRS(46), No. 1, January 2008, pp. 291-299.
IEEE DOI 0712
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Ma, C.Z.[Chang-Zheng], Yeo, T.S.[Tat Soon], Zhang, Q., Tan, H.S., Wang, J.,
Three-Dimensional ISAR Imaging Based on Antenna Array,
GeoRS(46), No. 2, February 2008, pp. 504-515.
IEEE DOI 0801
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Ma, C.Z.[Chang-Zheng], Yeo, T.S.[Tat Soon], Tan, C.S.[Chee Seng], Liu, Z.F.[Zhou-Feng],
Three-Dimensional Imaging of Targets Using Colocated MIMO Radar,
GeoRS(49), No. 8, August 2011, pp. 3009-3021.
IEEE DOI 1108
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Ma, C.Z.[Chang-Zheng], Yeo, T.S.[Tat Soon], Tan, C.S.[Chee Seng], Li, J., Shang, Y.,
Three-Dimensional Imaging Using Colocated MIMO Radar and ISAR Technique,
GeoRS(50), No. 8, August 2012, pp. 3189-3201.
IEEE DOI 1208
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de Macedo, K.A.C., Scheiber, R., Moreira, A.,
An Autofocus Approach for Residual Motion Errors With Application to Airborne Repeat-Pass SAR Interferometry,
GeoRS(46), No. 10, October 2008, pp. 3151-3162.
IEEE DOI 0810
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Bai, X.[Xueru], Zhou, F.[Feng], Wang, Q., Xing, M.D.[Meng-Dao], Bao, Z.[Zheng],
Sparse Subband Imaging of Space Targets in High-Speed Motion,
GeoRS(51), No. 7, 2013, pp. 4144-4154.
IEEE DOI Azimuth;Image resolution;Imaging;Signal resolution;sparse subband 1307

See also Novel Method for Imaging of Group Targets Moving in a Formation, A. BibRef

Wang, Q., Xing, M.D.[Meng-Dao], Lu, G., Bao, Z.,
High-Resolution Three-Dimensional Radar Imaging for Rapidly Spinning Targets,
GeoRS(46), No. 1, January 2008, pp. 22-30.
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Bai, X., Zhou, F., Bao, Z.,
High-Resolution Radar Imaging of Space Targets Based on HRRP Series,
GeoRS(52), No. 5, May 2014, pp. 2369-2381.
IEEE DOI 1403
High-resolution range profile (HRRP) series BibRef

Zhou, F., Bai, X.,
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GeoRS(56), No. 8, August 2018, pp. 4568-4580.
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expectation-maximisation algorithm, image resolution, learning (artificial intelligence), Bayesian learning, sparse subband BibRef

Bai, X., Zhang, Y., Zhou, F.,
High-Resolution Radar Imaging in Complex Environments Based on Bayesian Learning With Mixture Models,
GeoRS(57), No. 2, February 2019, pp. 972-984.
IEEE DOI 1901
Radar imaging, Imaging, Jamming, Computational modeling, Bayes methods, Scattering, Bayesian learning, BibRef

Xing, M., Wang, Q., Wang, G., Bao, Z.,
A Matched-Filter-Bank-Based 3-D Imaging Algorithm for Rapidly Spinning Targets,
GeoRS(47), No. 7, July 2009, pp. 2106-2113.
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Lv, X., Xing, M., Deng, Y., Zhang, S., Wu, Y.,
Coherence-Improving Algorithm for Image Pairs of Bistatic SARs With Nonparallel Trajectories,
GeoRS(47), No. 8, August 2009, pp. 2884-2898.
IEEE DOI 0907
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Wang, Y.[Yong], Jiang, Y.C.[Yi-Cheng],
ISAR Imaging of Maneuvering Target Based on the L-Class of Fourth-Order Complex-Lag PWVD,
GeoRS(48), No. 3, March 2010, pp. 1518-1527.
IEEE DOI 1003
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Suwa, K., Wakayama, T., Iwamoto, M.,
Three-Dimensional Target Geometry and Target Motion Estimation Method Using Multistatic ISAR Movies and Its Performance,
GeoRS(49), No. 6, June 2011, pp. 2361-2373.
IEEE DOI 1106
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Xu, J., Zuo, Y., Xia, B., Xia, X.G., Peng, Y.N., Wang, Y.L.,
Ground Moving Target Signal Analysis in Complex Image Domain for Multichannel SAR,
GeoRS(50), No. 2, February 2012, pp. 538-552.
IEEE DOI 1201
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Simard, M., Hensley, S., Lavalle, M., Dubayah, R., Pinto, N., Hofton, M.,
An Empirical Assessment of Temporal Decorrelation Using the Uninhabited Aerial Vehicle Synthetic Aperture Radar over Forested Landscapes,
RS(4), No. 4, April 2012, pp. 975-986.
DOI Link 1202
Temporal issues in IFSAR analysis. BibRef

Dragosevic, M.V., Burwash, W., Chiu, S.,
Detection and Estimation With RADARSAT-2 Moving-Object Detection Experiment Modes,
GeoRS(50), No. 9, September 2012, pp. 3527-3543.
IEEE DOI 1209
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Wang, L.[Ling], Yazici, B.[Birsen],
Passive Imaging of Moving Targets Using Sparse Distributed Apertures,
SIIMS(5), No. 3 2012, pp. 769-808.
DOI Link 1208
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Wang, L.[Ling], Son, I.Y.[Il-Young], Yazici, B.[Birsen],
Passive imaging exploiting multiple scattering using distributed apertures,
ICIP10(1385-1388).
IEEE DOI 1009
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Malanowski, M., Kulpa, K.,
Detection of Moving Targets With Continuous-Wave Noise Radar: Theory and Measurements,
GeoRS(50), No. 9, September 2012, pp. 3502-3509.
IEEE DOI 1209
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Wu, L., Wei, X., Yang, D., Wang, H., Li, X.,
ISAR Imaging of Targets With Complex Motion Based on Discrete Chirp Fourier Transform for Cubic Chirps,
GeoRS(50), No. 10, October 2012, pp. 4201-4212.
IEEE DOI 1210
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Budillon, A.[Alessandra], Pascazio, V.[Vito], Schirinzi, G.[Gilda],
Joint estimation of moving target reflectivity and velocity via AT-InSAR systems based on complex interferometric data,
PandRS(75), No. 1, January 2013, pp. 1-10.
Elsevier DOI 1301
Synthetic aperture radar, Along-track interferometry, Velocity estimation BibRef

Borcea, L., Callaghan, T., Papanicolaou, G.,
Synthetic Aperture Radar Imaging and Motion Estimation via Robust Principal Component Analysis,
SIIMS(6), No. 3, 2013, pp. 1445-1476.
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Wang, L.[Ling], Yazici, B.[Birsen],
Bistatic Synthetic Aperture Radar Imaging of Moving Targets Using Ultra-Narrowband Continuous Waveforms,
SIIMS(7), No. 2, 2014, pp. 824-866.
DOI Link 1405

See also Bistatic Synthetic Aperture Radar Imaging Using Ultra-Narrowband Continuous Waveforms. BibRef

Wang, L.[Ling], Yazici, B.[Birsen],
Ground Moving Target Imaging Using Ultranarrowband Continuous Wave Synthetic Aperture Radar,
GeoRS(51), No. 9, 2013, pp. 4893-4910.
IEEE DOI 1309
Doppler effect BibRef

Zhong, X.L.[Xue-Lian], Xiang, M.S.[Mao-Sheng], Yue, H.Y.[Huan-Yin], Guo, H.D.[Hua-Dong],
Algorithm on the Estimation of Residual Motion Errors in Airborne SAR Images,
GeoRS(52), No. 2, February 2014, pp. 1311-1323.
IEEE DOI 1402
airborne radar BibRef

Bai, X.[Xia], Tao, R.[Ran], Wang, Z.J.[Zhi-Jiao], Wang, Y.[Yue],
ISAR Imaging of a Ship Target Based on Parameter Estimation of Multicomponent Quadratic Frequency-Modulated Signals,
GeoRS(52), No. 2, February 2014, pp. 1418-1429.
IEEE DOI 1402
Fourier transforms BibRef

Colone, F., Pastina, D., Falcone, P., Lombardo, P.,
WiFi-Based Passive ISAR for High-Resolution Cross-Range Profiling of Moving Targets,
GeoRS(52), No. 6, June 2014, pp. 3486-3501.
IEEE DOI 1403
Clutter BibRef

An, W., Xie, C., Yuan, X.,
An Improved Iterative Censoring Scheme for CFAR Ship Detection With SAR Imagery,
GeoRS(52), No. 8, August 2014, pp. 4585-4595.
IEEE DOI 1403
Clutter BibRef

Benedek, C., Martorella, M.,
Moving Target Analysis in ISAR Image Sequences With a Multiframe Marked Point Process Model,
GeoRS(52), No. 4, April 2014, pp. 2234-2246.
IEEE DOI 1403
radar imaging BibRef

Wacks, S., Yazici, B.,
Passive Synthetic Aperture Hitchhiker Imaging of Ground Moving Targets: Part 1: Image Formation and Velocity Estimation,
IP(23), No. 6, June 2014, pp. 2487-2500.
IEEE DOI 1406
Apertures BibRef

Wacks, S., Yazici, B.,
Passive Synthetic Aperture Hitchhiker Imaging of Ground Moving Targets: Part 2: Performance Analysis,
IP(23), No. 9, September 2014, pp. 4126-4138.
IEEE DOI 1410
Radon transforms BibRef

Zheng, J., Su, T., Zhang, L., Zhu, W., Liu, Q.H.,
ISAR Imaging of Targets With Complex Motion Based on the Chirp Rate-Quadratic Chirp Rate Distribution,
GeoRS(52), No. 11, November 2014, pp. 7276-7289.
IEEE DOI 1407
Chirp BibRef

Zheng, J., Su, T., Zhu, W., Zhang, L., Liu, Z., Liu, Q.H.,
ISAR Imaging of Nonuniformly Rotating Target Based on a Fast Parameter Estimation Algorithm of Cubic Phase Signal,
GeoRS(53), No. 9, September 2015, pp. 4727-4740.
IEEE DOI 1506
Algorithm design and analysis BibRef

Sakamoto, T., Sato, T., Aubry, P.J., Yarovoy, A.G.,
Texture-Based Automatic Separation of Echoes from Distributed Moving Targets in UWB Radar Signals,
GeoRS(53), No. 1, January 2015, pp. 352-361.
IEEE DOI 1410
image texture BibRef

Zhang, Y.[Yuan], Sun, J.P.[Jin-Ping], Lei, P.[Peng], Hong, W.[Wen],
SAR-Based Paired Echo Focusing and Suppression of Vibrating Targets,
GeoRS(52), No. 12, December 2014, pp. 7593-7605.
IEEE DOI 1410
Bessel functions BibRef

Jiang, M.[Mi], Ding, X.L.[Xiao-Li], Hanssen, R.F., Malhotra, R., Chang, L.[Ling],
Fast Statistically Homogeneous Pixel Selection for Covariance Matrix Estimation for Multitemporal InSAR,
GeoRS(53), No. 3, March 2015, pp. 1213-1224.
IEEE DOI 1412
covariance matrices BibRef

Lv, G.[Gaohuan], Li, Y.[Yuan], Wang, G.[Gang], Zhang, Y.L.[Yu-Ling],
Ground Moving Target Indication in SAR Images With Symmetric Doppler Views,
GeoRS(54), No. 1, January 2016, pp. 533-543.
IEEE DOI 1601
geophysical techniques BibRef

Zhang, Y., Sun, J., Lei, P., Li, G., Hong, W.,
High-Resolution SAR-Based Ground Moving Target Imaging With Defocused ROI Data,
GeoRS(54), No. 2, February 2016, pp. 1062-1073.
IEEE DOI 1601
Acceleration BibRef

Wu, Q., Zhang, Y.D., Amin, M.G., Himed, B.,
Space-Time Adaptive Processing and Motion Parameter Estimation in Multistatic Passive Radar Using Sparse Bayesian Learning,
GeoRS(54), No. 2, February 2016, pp. 944-957.
IEEE DOI 1601
Bayes methods BibRef

Wang, L.B.[Li-Bao], Wang, D.W.[Dang-Wei], Li, J.J.[Jing-Jing], Xu, J.[Jia], Xie, C.[Chao], Wang, L.[Ling],
Ground Moving Target Detection and Imaging Using a Virtual Multichannel Scheme in HRWS Mode,
GeoRS(54), No. 9, September 2016, pp. 5028-5043.
IEEE DOI 1609
object detection BibRef

Chen, Y.C.[Yi-Chang], Li, G.[Gang], Zhang, Q.[Qun], Sun, J.P.[Jin-Ping],
Refocusing of Moving Targets in SAR Images via Parametric Sparse Representation,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708
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Liu, P., Jin, Y.Q.,
A Study of Ship Rotation Effects on SAR Image,
GeoRS(55), No. 6, June 2017, pp. 3132-3144.
IEEE DOI 1706
Distortion, Image resolution, Imaging, Marine vehicles, Numerical models, Scattering, Synthetic aperture radar, Image distortion, numerical simulation, ship motions, synthetic, aperture, radar, (SAR), image BibRef

Taylor, A., Oriot, H.M., Savy, L., Daout, F., Forster, P.,
Moving Targets Detection Capacities Improvement in Multichannel SAR Framework,
GeoRS(55), No. 6, June 2017, pp. 3248-3260.
IEEE DOI 1706
Antennas, Azimuth, Clutter, Coherence, Covariance matrices, Eigenvalues and eigenfunctions, Synthetic aperture radar, Coherence, Ground Moving Target Indication (GMTI), detection, moving targets, synthetic, aperture, radar, (SAR) BibRef

Jin, T.T.[Ting-Ting], Qiu, X.L.[Xiao-Lan], Hu, D.H.[Dong-Hui], Ding, C.[Chibiao],
An ML-Based Radial Velocity Estimation Algorithm for Moving Targets in Spaceborne High-Resolution and Wide-Swath SAR Systems,
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link 1706
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Huang, Y., Liao, G., Xu, J., Li, J.,
GMTI and Parameter Estimation via Time-Doppler Chirp-Varying Approach for Single-Channel Airborne SAR System,
GeoRS(55), No. 8, August 2017, pp. 4367-4383.
IEEE DOI 1708
Azimuth, Chirp, Clutter, Doppler effect, Frequency-domain analysis, Parameter estimation, Synthetic aperture radar, Ground moving target indication (GMTI), parameter estimation, chirp-varying, (TDCV), filter BibRef

Borcea, L., Garnier, J., Papanicolaou, G., Solna, K., Tsogka, C.,
Resolution Analysis of Passive Synthetic Aperture Imaging of Fast Moving Objects,
SIIMS(10), No. 2, 2017, pp. 665-710.
DOI Link 1708
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Fournier, J., Garnier, J., Papanicolaou, G., Tsogka, C.,
Matched-Filter and Correlation-Based Imaging for Fast Moving Objects Using a Sparse Network of Receivers,
SIIMS(10), No. 4, 2017, pp. 2165-2216.
DOI Link 1801
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Kang, M.S., Lee, S.J., Lee, S.H., Kim, K.T.,
ISAR Imaging of High-Speed Maneuvering Target Using Gapped Stepped-Frequency Waveform and Compressive Sensing,
IP(26), No. 10, October 2017, pp. 5043-5056.
IEEE DOI 1708
Compressed sensing, Imaging, Inverse synthetic aperture radar, Mathematical model, Parameter estimation, Radar imaging, Compressive sensing (CS), gapped stepped-frequency waveform (GSFW), inter-burst translational motion (IBTM), inter-pulse translational motion (IPTM), inverse synthetic aperture radar (ISAR), particle, swarm, optimization, (PSO) BibRef

Fu, H.Q., Zhu, J.J., Wang, C.C., Wang, H.Q., Zhao, R.,
A Wavelet Decomposition and Polynomial Fitting-Based Method for the Estimation of Time-Varying Residual Motion Error in Airborne Interferometric SAR,
GeoRS(56), No. 1, January 2018, pp. 49-59.
IEEE DOI 1801
airborne radar, digital elevation models, geophysical image processing, radar interferometry, residual motion error (RME) BibRef

Lao, G.C.[Guo-Chao], Yin, C.B.[Can-Bin], Ye, W.[Wei], Sun, Y.[Yang], Li, G.J.[Guo-Jing],
A Frequency Domain Extraction Based Adaptive Joint Time Frequency Decomposition Method of the Maneuvering Target Radar Echo,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804
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Newey, M., Benitz, G.R., Barrett, D.J., Mishra, S.,
Detection and Imaging of Moving Targets With LiMIT SAR Data,
GeoRS(56), No. 6, June 2018, pp. 3499-3510.
IEEE DOI 1806
Apertures, Focusing, Geology, History, Radar imaging, Synthetic aperture radar, Airborne radar, synthetic aperture radar (SAR) BibRef

Liu, M.[Mei], Wang, P.F.[Peng-Fei], Wang, Z.G.[Zhi-Gui], Li, C.L.[Chen-Lei],
Multidimensional Motion Parameters: Estimation for Multi-SAR System Using the Cubic Phase Function,
GeoRS(56), No. 6, June 2018, pp. 3210-3221.
IEEE DOI 1806
Acceleration, Azimuth, Doppler effect, Estimation, Signal processing algorithms, Signal to noise ratio, synthetic aperture radar (SAR) BibRef

Zhao, Y.F.[Yue-Feng], Han, S.L.[Sheng-Liang], Yang, J.[Jimin], Zhang, L.[Liren], Xu, H.Q.[Hua-Qiang], Wang, J.J.[Jing-Jing],
A Novel Approach of Slope Detection Combined with Lv's Distribution for Airborne SAR Imagery of Fast Moving Targets,
RS(10), No. 5, 2018, pp. xx-yy.
DOI Link 1806
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Greco, M.S., Gini, F., Stinco, P., Bell, K.,
Cognitive Radars: On the Road to Reality: Progress Thus Far and Possibilities for the Future,
SPMag(35), No. 4, July 2018, pp. 112-125.
IEEE DOI 1807
Cognitive radar, Interference, Radar signal processing, Radar tracking, Target tracking, Transmitters BibRef

Zhao, Y.[Yuan], Gini, F.[Fulvio], Greco, M.S.[Maria S.], Tang, B.[Bin],
Radar ECCM based on phase-aid distributed compressive sensing,
SIViP(12), No. 8, November 2018, pp. 1497-1504.
WWW Link. 1809
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Yi, T.Z.[Tian-Zhu], He, Z.H.[Zhi-Hua], He, F.[Feng], Dong, Z.[Zhen], Wu, M.Q.[Man-Qing], Song, Y.P.[Yong-Ping],
A Compensation Method for Airborne SAR with Varying Accelerated Motion Error,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
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Li, Z., Wu, J., Liu, Z., Huang, Y., Yang, H., Yang, J.,
An Optimal 2-D Spectrum Matching Method for SAR Ground Moving Target Imaging,
GeoRS(56), No. 10, October 2018, pp. 5961-5974.
IEEE DOI 1810
Doppler effect, Synthetic aperture radar, Azimuth, Imaging, Receivers, Transmitters, Estimation, velocity estimation BibRef

Vu, V.T.,
Local Detection of Moving Targets in SAR Image Based on NRS Hypotheses,
GeoRS(56), No. 10, October 2018, pp. 6101-6110.
IEEE DOI 1810
Synthetic aperture radar, Doppler effect, Focusing, Trajectory, History, Azimuth, Clutter, Ground moving target indication (GMTI), ultrawideband ultrawidebeam (UWB) BibRef

Pu, W., Wu, J., Wang, X., Huang, Y., Zha, Y., Yang, J.,
Joint Sparsity-Based Imaging and Motion Error Estimation for BFSAR,
GeoRS(57), No. 3, March 2019, pp. 1393-1408.
IEEE DOI 1903
geophysical techniques, radar imaging, synthetic aperture radar, joint sparsity-based imaging, motion error estimation, spatial variation BibRef

Jin, G., Dong, Z., He, F., Yu, A.,
Background-Free Ground Moving Target Imaging for Multi-PRF Airborne SAR,
GeoRS(57), No. 4, April 2019, pp. 1949-1962.
IEEE DOI 1904
airborne radar, Doppler radar, radar imaging, synthetic aperture radar, background image, multipulse repetition frequency (PRF) BibRef

Jin, G., Dong, Z., He, F., Yu, A.,
SAR Ground Moving Target Imaging Based on a New Range Model Using a Modified Keystone Transform,
GeoRS(57), No. 6, June 2019, pp. 3283-3295.
IEEE DOI 1906
Doppler effect, Synthetic aperture radar, Transforms, Imaging, Radar imaging, Azimuth, Scattering, synthetic aperture radar (SAR) BibRef

Huang, P., Xia, X., Liao, G., Yang, Z., Zhang, Y.,
Long-Time Coherent Integration Algorithm for Radar Maneuvering Weak Target With Acceleration Rate,
GeoRS(57), No. 6, June 2019, pp. 3528-3542.
IEEE DOI 1906
Doppler effect, Acceleration, Azimuth, Transforms, Radar, Frequency-domain analysis, Radon, Doppler ambiguity, series reversion BibRef

Zhang, Y.[Ye], Yang, Q.[Qi], Deng, B.[Bin], Qin, Y.L.[Yu-Liang], Wang, H.Q.[Hong-Qiang],
Estimation of Translational Motion Parameters in Terahertz Interferometric Inverse Synthetic Aperture Radar (InISAR) Imaging Based on a Strong Scattering Centers Fusion Technique,
RS(11), No. 10, 2019, pp. xx-yy.
DOI Link 1906
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Garren, D.A.,
Theory of SAR Signature Defocus Morphology for Arbitrary 3-D Target Motion Over Terrain Relief,
GeoRS(57), No. 7, July 2019, pp. 4651-4658.
IEEE DOI 1907
Synthetic aperture radar, Shape, Radar imaging, Geometry, Trajectory, Morphology, Radar imaging, radar target signatures, synthetic aperture radar (SAR) BibRef

Wang, J.D.[Jia-Dong], Zhang, L.[Lei], Du, L.[Lan], Yang, D.W.[Dong-Wen], Chen, B.[Bo],
Noise-Robust Motion Compensation for Aerial Maneuvering Target ISAR Imaging by Parametric Minimum Entropy Optimization,
GeoRS(57), No. 7, July 2019, pp. 4202-4217.
IEEE DOI 1907
Radar imaging, Imaging, Optimization, Azimuth, Motion compensation, Entropy, 2-D spatial-variant phase errors, noise robust BibRef

Wang, J.D.[Jia-Dong], Li, Y.C.[Ya-Chao], Song, M.[Ming], Huang, P.P.[Ping-Ping], Xing, M.D.[Meng-Dao],
Noise Robust High-Speed Motion Compensation for ISAR Imaging Based on Parametric Minimum Entropy Optimization,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
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Wang, C., Shen, P., Li, X., Zhu, J., Li, Z.,
A Novel Vessel Velocity Estimation Method Using Dual-Platform TerraSAR-X and TanDEM-X Full Polarimetric SAR Data in Pursuit Monostatic Mode,
GeoRS(57), No. 8, August 2019, pp. 6130-6144.
IEEE DOI 1908
data acquisition, oceanographic techniques, radar polarimetry, synthetic aperture radar, wind, unstable estimations, vessel detection BibRef

Chen, J., Liang, B., Yang, D., Zhao, D., Xing, M., Sun, G.,
Two-Step Accuracy Improvement of Motion Compensation for Airborne SAR With Ultrahigh Resolution and Wide Swath,
GeoRS(57), No. 9, September 2019, pp. 7148-7160.
IEEE DOI 1909
Electronics packaging, Azimuth, Synthetic aperture radar, Trajectory, Estimation, Scattering, Phase gradient autofocus (PGA), ultrahigh resolution and wide swath BibRef

Addabbo, P., Orlando, D., Ricci, G.,
Adaptive Radar Detection of Dim Moving Targets in Presence of Range Migration,
SPLetters(26), No. 10, October 2019, pp. 1461-1465.
IEEE DOI 1909
Sensor arrays, Radar detection, Sensor systems, Probability density function, Adaptive radar detection, model order selection BibRef

Yan, S.[Sheng], Addabbo, P.[Pia], Hao, C.P.[Cheng-Peng], Orlando, D.[Danilo],
Adaptive Detection of Dim Maneuvering Targets in Adjacent Range Cells,
SPLetters(28), 2021, pp. 633-637.
IEEE DOI 2104
Interference, Radar, Sonar, Sensor arrays, Time-frequency analysis, Radar detection, Adaptive detection, sonar BibRef

Wan, J.[Jun], Zhou, Y.[Yu], Zhang, L.[Linrang], Chen, Z.[Zhanye], Yu, H.[Hengli],
Efficient Algorithm for SAR Refocusing of Ground Fast-Maneuvering Targets,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
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Rong, J., Wang, Y., Han, T.,
Interferometric ISAR Imaging of Maneuvering Targets With Arbitrary Three-Antenna Configuration,
GeoRS(58), No. 2, February 2020, pp. 1102-1119.
IEEE DOI 2001
Imaging, Radar imaging, Azimuth, Antennas, Scattering, Data models, Motion compensation, Fractional Fourier transform (FRFT), nonorthogonal baseline BibRef

Zhou, Y., Zhang, L., Cao, Y.,
Dynamic Estimation of Spin Spacecraft Based on Multiple-Station ISAR Images,
GeoRS(58), No. 4, April 2020, pp. 2977-2989.
IEEE DOI 2004
Dynamic state estimation, image interpretation, multiple-station inverse synthetic aperture radar (ISAR) imaging, spin spacecraft BibRef

Wei, S., Zhang, L., Liu, H.,
Integrated Kalman Filter of Accurate Ranging and Tracking With Wideband Radar,
GeoRS(58), No. 12, December 2020, pp. 8395-8411.
IEEE DOI 2012
Radar tracking, Distance measurement, Target tracking, Wideband, Kalman filters, Integration of accurate ranging and tracking, wideband tracking BibRef

Zhu, N.N.[Nan-Nan], Hu, J.[Jun], Xu, S.Y.[Shi-You], Wu, W.Z.[Wen-Zhen], Zhang, Y.F.[Yun-Fan], Chen, Z.P.[Zeng-Ping],
Micro-Motion Parameter Extraction for Ballistic Missile with Wideband Radar Using Improved Ensemble EMD Method,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Lu, J.Y.[Jing-Yue], Zhang, L.[Lei], Quan, Y.H.[Ying-Hui], Meng, Z.C.[Zhi-Chao], Cao, Y.H.[Yun-He],
Parametric Azimuth-Variant Motion Compensation for Forward-Looking Multichannel SAR Imagery,
GeoRS(59), No. 10, October 2021, pp. 8521-8537.
IEEE DOI 2109
Imaging, Radar imaging, Doppler effect, Apertures, Radar, Image resolution, Synthetic aperture radar, Azimuth variant, subaperture BibRef

Shao, S.[Shuai], Zhang, L.[Lei], Liu, H.W.[Hong-Wei], Wang, P.H.[Peng-Hui], Chen, Q.Q.[Qian-Qian],
Images of 3-D Maneuvering Motion Targets for Interferometric ISAR With 2-D Joint Sparse Reconstruction,
GeoRS(59), No. 11, November 2021, pp. 9397-9423.
IEEE DOI 2111
Imaging, Image registration, Image reconstruction, Radar imaging, Scattering, Radar, Geometry, spatial-variant wave path difference (SVWPD) BibRef

Yang, L.[Ling], Zhang, F.[Fubo], Sun, Y.H.[Yi-Hong], Chen, L.Y.[Long-Yong], Li, Z.H.[Zhen-Hua], Wang, D.W.[Da-Wei],
Motion Error Estimation and Compensation of Airborne Array Flexible SAR Based on Multi-Channel Interferometric Phase,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef


Zhu, C.B.[Cheng-Bin], Guan, Y.[Yifu],
Study of ground moving target parameters estimation and imaging for Mini-SAR,
ICIVC17(587-591)
IEEE DOI 1708
Azimuth, Doppler effect, Frequency modulation, Imaging, Parameter estimation, Synthetic aperture radar, Transforms, mini-SAR, moving targets imaging, parameters, estimation BibRef

Huang, W.M.[Wei-Min], Gill, E.[Eric],
Simulation analysis of sea surface current extraction from microwave nautical radar images,
ICIP12(2673-2676).
IEEE DOI 1302
BibRef

Zhang, K.F.[Kun-Fan], Feng, Z.H.[Zhi-Hong], Ma, D.B.[De-Bao],
Study on a method of compensation for the range profile of high velocity spatial targets,
IASP10(450-453).
IEEE DOI 1004
Extract with moving targets. Radar analysis. BibRef

Geng, J.[Jun], Li, S.B.[Shao-Bin], Yuan, Y.[Yeshu],
An Algorithm for ISAR Ship Imaging Based on S-Distribution,
CISP09(1-4).
IEEE DOI 0910
BibRef

Wong, S.K., Duff, G., Riseborough, E.,
Distortion in the ISAR (inverse synthetic aperture radar) images from moving targets,
ICIP04(I: 25-28).
IEEE DOI 0505
BibRef

Sparr, T.,
ISAR: Radar Imaging of Targets with Complicated Motion,
ICIP04(I: 5-8).
IEEE DOI 0505
BibRef

Maki, A., Fukui, K., Onoguchi, K., Maeda, K.,
ISAR Image Analysis by Subspace Method: Automatic Extraction and Identification of Ship Profile,
CIAP01(523-528).
IEEE DOI 0210
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Slope, Shape and Depth from Radar and SAR .


Last update:Mar 16, 2024 at 20:36:19