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Publications about 'Azimuth Focusing'

Thesis

  1. David W. Hawkins. Synthetic aperture imaging algorithms : with application to wide bandwidth sonar. PhD thesis, University of Canterbury. Electrical and Computer Engineering, 1996. Keyword(s): SAR Processing, Azimuth Focusing, Autofocus, Synthetic Aperture Sonar, SAS, Sonar, Phase Gradient Autofocus, Stripmap, range-Doppler Algorithm, Chirp Scaling Algorithm, CSA, omega-k, Wavenumber Domain Algorithm. [Abstract] [bibtex-entry]


  2. Jerald L. Bauck. Tomographic Processing of Synthetic Aperture Radar Signals for Enhanced Resolution. PhD thesis, 1989. Keyword(s): SAR Processing, Bistatic SAR, Back-Projection, bistatic synthetic aperture radar, Azimuth Focusing, convolution back-projection, elliptical-arc projections, final reconstructed image, ground patch, image resource, pixel, weighting, radar cross-sections, radar theory, Spotlight mode, Airborne SAR, Tomographic Processing, Tomography, Wavefront Curvature. [Abstract] [bibtex-entry]


Articles in journal or book chapters

  1. F. Rosu, A. Anghel, R. Cacoveanu, B. Rommen, and M. Datcu. Multiaperture Focusing for Spaceborne Transmitter/Ground-Based Receiver Bistatic SAR. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 13:5823-5832, 2020. Keyword(s): autoregressive processes, covariance matrices, eigenvalues and eigenfunctions, radar receivers, radar resolution, radar transmitters, spaceborne radar, synthetic aperture radar, Romania, Bucharest city, eigenvalues, spatial smoothing, principle component analysis, full rank covariance matrix, bistatic data, integer multiple, Akaike information criterion, multiaperture range image, back-projection focusing, autoregressive model, azimuth samples, slow time resampling, antenna pattern compensation, satellite bursts, range compressed pulses, azimuth apertures, azimuth resolution, spaceborne transmitter-stationary receiver bistatic SAR, azimuth focusing, Azimuth, Receivers, Apertures, Focusing, Synthetic aperture radar, Chirp, Satellites, Autoregressive (AR) model, bistatic synthetic aperture radar (SAR), focusing, order estimation, signal reconstruction. [Abstract] [bibtex-entry]


  2. Jan Torgrimsson, Patrick Dammert, Hans Hellsten, and Lars M. H. Ulander. SAR Processing Without a Motion Measurement System. IEEE Transactions on Geoscience and Remote Sensing, 57(2):1025-1039, February 2019. Keyword(s): SAR Processsing, Backprojection, Fast-factorized Back-projection, FFBP, Time-Domain Back-Projection, TDBP, Azimuth Focusing, Motion Compensation, MoComp, autofocus, geometric autofocus, radar imaging, synthetic aperture radar, synthetic aperture radar image, very high frequency band, base-2 fast factorized back-projection, track velocity error, CARABAS II system, ultrawideband data sets, innovative autofocus concept, subaperture pair, free geometry parameters, back-projection formulation, factorized geometrical autofocus, SAR processing, FGA algorithm, VHF-band, wavelength-resolution SAR image, FGA images, linear equidistant track, basic geometry model, Geometry, Synthetic aperture radar, Global Positioning System, Tracking, Apertures, Radar tracking, Autofocus, back-projection (BP), factorized geometrical autofocus (FGA), Synthetic Aperture Radar (SAR). [Abstract] [bibtex-entry]


  3. Stephan Palm, Rainer Sommer, and Uwe Stilla. Mobile Radar Mapping --- Subcentimeter SAR Imaging of Roads. IEEE Transactions on Geoscience and Remote Sensing, 56(11):6734-6746, November 2018. Keyword(s): SAR Processing, Azimuth Focusing, FMCW, Back Projection, Time-Domain Back-Projection, TDBP, FFBP, Fast-Factorized Back-Projection, CW radar, digital elevation models, FM radar, geophysical image processing, Global Positioning System, image reconstruction, image resolution, radar imaging, remote sensing by radar, synthetic aperture radar, mobile radar mapping-subcentimeter SAR imaging, ultrahigh-resolution synthetic aperture radar data, related theoretical background, imaging method, backprojection techniques, potential errors, correct geometry, imaging quality, point target simulations, suitable digital elevation model, illuminated scene, conventional roads, mobile mapping scenarios, SAR images, output data, reference targets, GPS-INS data, conventional 3-D Point Cloud Software, geometric distortions, subcentimeter SAR imaging, active frequency-modulated continuous wave radar system, frequency 300.0 GHz, Synthetic aperture radar, Sensors, Radar imaging, Roads, Laser radar, Geometry, Millimeter wave radar, radar resolution, radar signal processing, road vehicle radar. [Abstract] [bibtex-entry]


  4. Achille Peternier, John Peter Merryman Boncori, and Paolo Pasquali. Near-real-time focusing of ENVISAT ASAR Stripmap and Sentinel-1 TOPS imagery exploiting OpenCL GPGPU technology. Remote Sensing of Environment, 2017. Keyword(s): SAR Processing, Synthetic Aperture Radar, Azimuth Focusing, Image Focusing, GPGPU, GPU, Graphics Processing Units, General-purpose Computing, Parallelization, OpenCL, CUDA. [Abstract] [bibtex-entry]


  5. Viet Thuy Vu and Mats I. Pettersson. Fast Backprojection Algorithms Based on Subapertures and Local Polar Coordinates for General Bistatic Airborne SAR Systems. IEEE Trans. Geosci. Remote Sens., 54(5):2706-2712, May 2016. Keyword(s): SAR Processing, Back-Projection, Fast Back-Projection, Fast-Factorized Back-Projection, Azimuth Focusing, airborne radar, synthetic aperture radar, bistatic CARABAS-like data, fast backprojection algorithms, general bistatic airborne SAR systems, half-power beamwidths, image quality measurements, interpolation step, local polar coordinates, peak sidelobe ratio, subapertures, Image reconstruction, Receivers, Signal processing algorithms, Synthetic aperture radar, Time-domain analysis, Transmitters, Algorithm, bistatic, fast backprojection, polar coordinates, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  6. Michael I. Duersch and David G. Long. Analysis of time-domain back-projection for stripmap SAR. International Journal of Remote Sensing, 36(8):2010-2036, 2015. Keyword(s): SAR Processing, FMCW, Time-Domain Back-Projection, TDBP, LFMCW, Azimuth Focusing, Motion Compensation, Interferometry, SAR Interferometry, Airborne SAR. [Abstract] [bibtex-entry]


  7. Michael I. Duersch and David G. Long. Backprojection SAR interferometry. International Journal of Remote Sensing, 36(4):979-999, 2015. Keyword(s): SAR Processing, FMCW, Time-Domain Back-Projection, TDBP, LFMCW, Azimuth Focusing, Motion Compensation, Interferometry, SAR Interferometry, Airborne SAR. [Abstract] [bibtex-entry]


  8. M. Rodriguez-Cassola, P. Prats-Iraola, F. De Zan, R. Scheiber, A. Reigber, D. Geudtner, and A. Moreira. Doppler-Related Distortions in TOPS SAR Images. IEEE Trans. Geosci. Remote Sens., 53(1):25-35, January 2015. Keyword(s): SAR Processing, SAR Focusing, Azimuth Focusing, TOPS, Doppler radar, approximation theory, beam steering, compensation, distortion, geophysical image processing, radar antennas, radar imaging, radar interferometry, remote sensing by radar, synthetic aperture radar, terrain mapping, SAR image formation scheme, Sentinel-1 interferometric extra wide swath mode, Sentinel-1 interferometric wide swath mode, TOPS SAR image, TerraSAR-X TOPS, azimuth distortion, burst mode acquisition, compensation strategy, focused SAR image, intrapulse motion, low Earth orbit SAR, radar antenna, range distortion, steering, stop-and-go approximation, terrain observation with progressive scan, time-varying Doppler centroid, Azimuth, Doppler effect, Geometry, Orbits, Spaceborne radar, Surfaces, Synthetic aperture radar, Burst-mode acquisitions, Sentinel-1, TerraSAR-X (TerraSAR-X), Terrain Observation with Progressive Scans (TOPS), spaceborne SAR missions, synthetic aperture radar (SAR), wide-swath SAR modes. [Abstract] [bibtex-entry]


  9. Ze Yu, Zhou Li, and Shusen Wang. An Imaging Compensation Algorithm for Correcting the Impact of Tropospheric Delay on Spaceborne High-Resolution SAR. IEEE Transactions on Geoscience and Remote Sensing, 53(9):4825-4836, September 2015. Keyword(s): SAR Processing, SAR Focusing, Azimuth Focusing, Autofocus, Motion Compensation, atmospheric electromagnetic wave propagation, delays, geophysical image processing, image filtering, image resolution, radar cross-sections, radar imaging, remote sensing by radar, spaceborne radar, synthetic aperture radar, troposphere, imaging compensation algorithm, tropospheric delay, spaceborne high-resolution SAR, atmospheric refraction, electromagnetic signalpropagation speed, propagation path delay, geometrical straight-line path, spaceborne synthetic aperture radar, imaging filter, rectilinear propagation, residual phase, focusing quality, focusing performance, spaceborne SAR echo model, range delay coefficient, European Geostationary Navigation Overlay Service model, zenith delay, Niell mapping function, looking direction, range compensation, classical imaging, azimuth compensation, Delays, Synthetic aperture radar, Atmospheric modeling, Focusing, Data models, Real-time systems, High-resolution imaging, phase compensation, synthetic aperture radar (SAR), tropospheric delay, High-resolution imaging, phase compensation. [Abstract] [bibtex-entry]


  10. Evan C. Zaugg and David G. Long. Generalized Frequency Scaling and Backprojection for LFM-CW SAR Processing. IEEE Trans. Geosci. Remote Sens., 53(7):3600-3614, July 2015. Keyword(s): SAR Processing, Time-Domain Back-Projection, TDBP, Back-Projection, Fast-Factorized Back-Projection, FFBP, GPU, SAR focusing, Azimuth Focusing, GPU-based parallelized TDBP, graphics processing units, LFM-CW, FMCW, Airborne SAR, Approximation algorithms, Approximation methods, Bandwidth, Chirp, Doppler effect, Synthetic aperture radar, Radar imaging, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  11. Christophe Magnard, Max Frioud, David Small, Torsten Brehm, Helmut Essen, and Erich Meier. Processing of MEMPHIS Ka-Band Multibaseline Interferometric SAR Data: From Raw Data to Digital Surface Models. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 7(7):2927-2941, July 2014. Keyword(s): SAR Processing, SAR Interferometry, InSAR, Multibaseline Interferometry, Ka-band, Airborne SAR, Single-pass Multibaseline Interferometry, Focusing, Azimuth Focusing, Motion Compensation, data acquisition, geophysical image processing, image reconstruction, image resolution, millimetre wave radar, radar imaging, radar interferometry, radar polarimetry, radar resolution, synthetic aperture radar, DSM, MEMPHIS Ka-band multibaseline interferometric SAR data processing, SAR image resolution, azimuth focusing, cross-track multibaseline interferometric data acquisition, digital surface model, extended omega-K algorithm, interferogram generation, millimeter-wave synthetic aperture radar system, multibaseline antenna setup, observed depression angle-dependent interferometric phase error, phase unwrapping, phase-to-height conversion, reference ALS model, stepped-frequency SAR data reconstruction, Accuracy, Antennas, Azimuth, Chirp, Focusing, Motion compensation, Synthetic aperture radar, Digital surface model (DSM), Ka-band, MEMPHIS, interferometry, millimeter wave radar, multibaseline, stepped-frequency, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  12. Pau Prats-Iraola, Rolf Scheiber, Marc Rodriguez-Cassola, J. Mittermayer, S. Wollstadt, F. De Zan, B. Brautigam, M. Schwerdt, Andreas Reigber, and Alberto Moreira. On the Processing of Very High Resolution Spaceborne SAR Data. IEEE Trans. Geosci. Remote Sens., 52(10):6003-6016, October 2014. Keyword(s): SAR Processing, Spaceborne SAR, SAR Focusing, Azimuth focusing, radar antennas, remote sensing by radar, synthetic aperture radar, TerraSAR-X, bandwidth 300 MHz, chirp signal, complete focusing methodology, decimeter range, electronically steered antennas, satellite motion, synthetic aperture radar, troposphere effect, very high resolution spaceborne SAR data, Azimuth, Bandwidth, Geometry, Orbits, Satellites, Synthetic aperture radar, Terrestrial atmosphere, SAR processing, spotlight SAR, stop-and-go approximation, synthetic aperture radar (SAR), troposphere. [Abstract] [bibtex-entry]


  13. Craig Stringham and David G. Long. GPU Processing for UAS-Based LFM-CW Stripmap SAR. Photogrammetric Engineering & Remote Sensing, 80(12):1107-1115, 2014. Keyword(s): SAR Processing, Azimuth Focusing, Time-domain back-projection, TDBP, SAR focusing, GPU, GPU-based parallelized TDBP, graphics processing units, motion compensation, parallel processing, radar signal processing, synthetic aperture radar, 3D motion compensation, GPU based backprojection processing, NVIDIA CUDA GPU computing framework, SAR processing scheme, agile SAR platforms, parallelized backprojection processing, time domain backprojection processing, Azimuth, Focusing, Graphics processing units, Remote sensing, Synthetic aperture radar, Time-domain analysis, Azimuth focusing, CARSAR, CUDA, GPU, Parallelization, SAR imaging. [Abstract] [bibtex-entry]


  14. Kyra Moon and David G. Long. A New Factorized Backprojection Algorithm for Stripmap Synthetic Aperture Radar. Positioning, 4:42-56, 2013. Keyword(s): SAR Processing, Azimuth Focusing, Time-domain back-projection, TDBP, SAR focusing, motion compensation, radar signal processing, synthetic aperture radar, 3D motion compensation, SAR processing scheme, agile SAR platforms, time domain backprojection processing, Fast-Factorized Back-Projection, FFBP, Fast Back-Projection, Synthetic aperture radar. [Abstract] [bibtex-entry]


  15. Alberto Moreira, Pau Prats-Iraola, Marwan Younis, Gerhard Krieger, Irena Hajnsek, and Konstantinos P. Papathanassiou. A tutorial on synthetic aperture radar. IEEE Geoscience and Remote Sensing Magazine, 1(1):6-43, March 2013. Keyword(s): SAR Processing, Tutorial, SAR Focusing, Azimuth Focusing, SAR Interferometry, SAR Polarimetry, polarimetric interferometry, PolInSAR, InSAR, SAR Tomography, geophysical techniques, radar interferometry, radar polarimetry, remote sensing by radar, synthetic aperture radar, Earth remote sensing, bistatic configurations, differential interferometry, digital beamforming, holographic tomography, multiple-input multiple-output, multistatic configurations, polarimetric SAR interferometry, polarimetry, synthetic aperture radar, Radar imaging, Remote sensing, Scattering, Spaceborne radar, Synthetic aperture radar, Tutorial, Teaching Material, Teaching. [Abstract] [bibtex-entry]


  16. Paco Lopez-Dekker and Jordi. J. Mallorqui. Capon- and APES-Based SAR Processing: Performance and Practical Considerations. IEEE Transactions on Geoscience and Remote Sensing, 48(5):2388-2402, May 2010. Keyword(s): SAR Processing, APES, Amplitude and Phase EStimation, Capon, minimum variance distortionless response, MVDR, Capon Beamforming, Beamforming, geophysical techniques, spectral analysis, synthetic aperture radar, minimum variance method, APES-based SAR processing, spectral-estimation algorithms, synthetic aperture radar, Capon processing chain, chip-image size, resampling factor, diagonal loading, joint-processing approach, Monte Carlo simulations, RADARSAT-2 quad-polarization data, Barcelona, adaptive processing, 2D spectral analysis, Spain, Azimuth, Backpropagation algorithms, Focusing, Covariance matrix, Phase estimation, Tomography, Remote sensing, Laboratories, Microwave communication, Array signal processing, Adaptive processing, synthetic aperture radar, 2-D spectral analysis. [Abstract] [bibtex-entry]


  17. Andrea Monti Guarnieri and Silvia Scirpoli. Efficient Wavenumber Domain Focusing for Ground-Based SAR. IEEE Geoscience and Remote Sensing Letters, 7(1):161-165, January 2010. Keyword(s): SAR Processing, omega-k, Wavenumver Domain Algorithm, Range Migration Algorithm, GB-SAR, SAR Focusing, Azimuth Focusing, computational complexity, focusing, geophysical signal processing, geophysical techniques, radar signal processing, remote sensing by radar, synthetic aperture radar, computational complexity, efficient wavenumber domain focusing, ground-based SAR, kernel nonseparability, modified Stolt interpolation, polar formatting algorithm, range-angular domain, space-varying resampling, synthetic aperture radar, Focusing, ground-based (GB) synthetic aperture radar (SAR), wavenumber domain algorithm. [Abstract] [bibtex-entry]


  18. Viet Thuy Vu, Thomas K. Sjogren, and Mats I. Pettersson. Ultrawideband Chirp Scaling Algorithm. IEEE Geoscience and Remote Sensing Letters, 7(2):281-285, April 2010. Keyword(s): SAR Processing, Chirp Scaling, Chirp Scaling Algorithm, CSA, UCS, Azimuth Focusing, Focusing Algorithm, CARABAS-II, LORA, UWB SAR, UWB, antenna beamwidth, fractional bandwidth, ground-moving-target-indication SAR systems, high pulse repetition frequency, integration angle, synthetic aperture radar imaging algorithms, ultrawideband chirp scaling algorithm, geophysical image processing, geophysical techniques, synthetic aperture radar;. [Abstract] [bibtex-entry]


  19. Viet Thuy Vu, Thomas K. Sjogren, M.I. Pettersson, A. Gustavsson, and Lars M.H. Ulander. Detection of Moving Targets by Focusing in UWB SAR: Theory and Experimental Results. IEEE Trans. Geosci. Remote Sens., 48(10):3799 -3815, October 2010. Keyword(s): SAR Processing, UWB SAR, azimuth focusing, moving target detection, multichannel SAR data, reference system, reliable detection, signal-to-clutter noise ratio, single-channel SAR data, ultrawideband synthetic aperture radar, object detection, synthetic aperture radar, target tracking, ultra wideband radar;. [Abstract] [bibtex-entry]


  20. Joaquim Fortuny-Guasch. A Fast and Accurate Far-Field Pseudopolar Format Radar Imaging Algorithm. IEEE Transactions on Geoscience and Remote Sensing, 47(4):1187-1196, April 2009. Keyword(s): SAR Processing, GB-SAR, GB-SAR Focusing, Focusing, Azimuth Focusing, Terrestrial radar, Terrestrial SAR, CW radar, fast Fourier transforms, geophysical signal processing, radar imaging, remote sensing by radar, synthetic aperture radar, 2D fast Fourier transforms, frequency domain backscatter, frequency modulated CW radar, interpolation free series expansion, linear radar aperture, pseudopolar format radar imaging algorithm, stepped frequency continuous wave, synthetic aperture radar systems, ultrawideband radar, Antenna arrays, far field, radar data processing, radar imaging, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  21. Othmar Frey, Christophe Magnard, Maurice Rüegg, and Erich Meier. Focusing of Airborne Synthetic Aperture Radar Data from Highly Nonlinear Flight Tracks. IEEE Trans. Geosci. Remote Sens., 47(6):1844-1858, June 2009. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, TDBP, Non-Linear Flight Tracks, Curvilinear SAR, Extended Chirp Scaling, ECS, Mosaicking, Geocoding, Azimuth Focusing, Integrated Focusing and Geocoding, Georeferencing, mapping, corridor mapping, E-SAR, L-Band, digital elevation model, Airborne SAR. [Abstract] [bibtex-entry]


  22. Evan C. Zaugg and David G. Long. Generalized Frequency-Domain SAR Processing. IEEE Transactions on Geoscience and Remote Sensing, 47(11):3761-3773, November 2009. Keyword(s): SAR Processing, Azimuth Focusing, Chirp Scaling Algorithm, CSA, Extended Chirp Scaling, ECS, range-Doppler algorithm, omega-k, wavenumber domain algorithm, range migration algorithm, frequency-domain analysis, geophysical techniques, synthetic aperture radar, 2D frequency domain analysis. [Abstract] [bibtex-entry]


  23. Lei Zhang, Cheng-Wei Qiu, Mengdao Xing, and Zheng Bao. Azimuth preprocessing for monostatic and bistatic spotlight synthetic aperture radar maging based on spectral analysis convolution. Journal of Applied Remote Sensing, 3(1):1-20, January 2009. Keyword(s): SAR Processing, Bistatic SAR, SPECAN, Azimuth Focusing, Spotlight SAR, Spotlight-mode data. [Abstract] [bibtex-entry]


  24. Jehanzeb Burki and Christopher F. Barnes. Slant Plane CSAR Processing Using Householder Transform. IEEE Transactions on Image Processing, 17(10):1900-1907, October 2008. Keyword(s): SAR Processing, Circular SAR, Azimuth Focusing, Fourier transforms, radar imaging, synthetic aperture radar, Fourier analysis-based focusing, Householder transform, ground plane circular SAR signal, linear shift-varying system, slant plane CSAR processing, synthetic aperture radar, Adaptive optics, Fourier transforms, History, Image analysis, Image reconstruction, Optical imaging, Optical sensors, Optical signal processing, Radar polarimetry, Synthetic aperture radar, 2-D aperture synthesis, Circular aperture, Fourier optics, Fourier transform, Householder transform, circular synthetic aperture radar (CSAR), synthetic aperture radar (SAR), Algorithms, Fourier Analysis, Image Enhancement, Image Interpretation, Computer-Assisted, Imaging, Three-Dimensional, Radar, Reproducibility of Results, Sensitivity and Specificity. [Abstract] [bibtex-entry]


  25. Adriano Meta, Peter Hoogeboom, and L. P. Ligthart. Signal Processing for FMCW SAR. IEEE Transactions on Geoscience and Remote Sensing, 45(11):3519-3532, November 2007. Keyword(s): SAR Processing, SAR Focusing, Azimuth Focusing, FMCW, FMCW SAR, geophysical signal processing, geophysical techniques, image sensors, radar imaging, synthetic aperture radar, Delft University of Technology, FMCW technique, Netherlands, SAR technique, conventional stop-and-go approximation, data collection, frequency-modulated continuous-wave technology, high resolution image sensor, pulse-radar algorithms, signal model, signal processing, signal transmission, synthetic aperture radar, Frequency, High-resolution imaging, Image resolution, Image sensors, Limiting, Radar signal processing, Signal processing, Signal processing algorithms, Signal resolution, Synthetic aperture radar, Doppler frequency correction, frequency-modulated continuous wave (FMCW), nonlinearity correction, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  26. J. J. M. de Wit, Adriano Meta, and Peter Hoogeboom. Modified range-Doppler processing for FM-CW synthetic aperture radar. IEEE Geoscience and Remote Sensing Letters, 3(1):83-87, January 2006. Keyword(s): SAR Processing, SAR focusing, Azimuth Focusing, FMCW, FMCW SAR, Doppler shift, airborne radar, geophysical signal processing, remote sensing by radar, synthetic aperture radar, Doppler frequency shift, SAR processing, echo, frequency-modulated continuous-wave radar, modified range-Doppler processing, radar Earth observation, range migration compensation, remote sensing, synthetic aperture radar, Airborne radar, Doppler radar, Earth, Frequency, High-resolution imaging, Radar imaging, Radar remote sensing, Radar signal processing, Remote monitoring, Synthetic aperture radar, Frequency-modulated continuous-wave (FM-CW) radar, radar Earth observation, remote sensing, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  27. R. Lanari, S. Hensley, and P.A. Rosen. Chirp z-transform based SPECAN approach for phase-preserving ScanSAR image generation. Radar, Sonar and Navigation, IEE Proceedings -, 145(5):254-261, October 1998. Keyword(s): SAR Processing, Modified SPECAN, SPECAN, Spectral Analysis, Z transforms, airborne radar, image resolution, radar imaging, radar resolution, InSAR, SAR Interferometry, radiowave interferometry, spaceborne radar, synthetic aperture radar, time-domain analysis, transient response, ScanSAR, airborne platform, algorithm, azimuth focusing, chirp z-transform, chirp-z, experiments, high resolution microwave images, image impulse response, interferometric ScanSAR systems, modified SPECAN algorithm, phase analysis, phase-preserving ScanSAR image generation, real data, scan mode synthetic aperture radar, simulated data, spaceborne platform, standard range-Doppler approach, time domain. [Abstract] [bibtex-entry]


  28. A. M. Smith. A new approach to range-Doppler SAR processing. International Journal of Remote Sensing, 12(2):235-251, 1991. Keyword(s): SAR Processing, Range-Doppler Algorithm, RDA, Azimuth Focusing, Spaceborne SAR, Ambiguity Analysis, Stripmap Mode. [Abstract] [bibtex-entry]


  29. J. L. Bauck and W. K. Jenkins. Convolution-Backprojection Image Reconstruction For Bistatic Synthetic Aperture Radar With Correction For Wavefront Curvature And Propagation Attenuation. Proc.SPIE, 1101:1-8, 1989. Keyword(s): SAR Processing, Bistatic SAR, Back-Projection, bistatic synthetic aperture radar, Azimuth Focusing, convolution back-projection, elliptical-arc projections, final reconstructed image, ground patch, image resource, pixel, weighting, radar cross-sections, radar theory, Spotlight mode, Airborne SAR, Tomographic Processing, Tomography, Wavefront Curvature. [Abstract] [bibtex-entry]


  30. David C. Munson and Robert L. Visentin. A signal processing view of strip-mapping synthetic aperture radar. IEEE Transactions on Acoustics, Speech, and Signal Processing, 37(12):2131-2147, December 1989. Keyword(s): SAR Processing, SAR Focusing, Azimuth Focusing, radar theory, signal processing, Doppler effect, SAR, airborne, imaging equations, polar-format, pulse compression, radar return signal, radar theory, signal processing, spaceborne, spotlight-mode, strip-mapping synthetic aperture radar, Doppler effect, Equations, Geometry, Image resolution, Pulse compression methods, Radar signal processing, Signal analysis, Signal resolution, Spaceborne radar, Synthetic aperture radar. [Abstract] [bibtex-entry]


  31. Carl A. Wiley. Synthetic Aperture Radars. IEEE Trans. Aerosp. Electron. Syst., AES-21(3):440-443, May 1985. Keyword(s): SAR Processing, Azimuth Focusing, Synthetic Aperture Radar, Adaptive optics, Airborne radar, Aircraft, Doppler radar, Laser radar, Optical signal processing, Radar imaging, Radar signal processing, Railway engineering, Synthetic aperture radar. [Abstract] [bibtex-entry]


Conference articles

  1. Andrew Rittenbach and John Paul Walters. Demonstration of a fully neural network based synthetic aperture radar processing pipeline for image formation and analysis. In Sachidananda R. Babu, Arnaud Hélière, and Toshiyoshi Kimura, editors, Sensors, Systems, and Next-Generation Satellites XXV, volume 11858, pages 98 - 109, 2021. International Society for Optics and Photonics, SPIE. Keyword(s): SAR Processing, synthetic aperture radar, onboard processing, SAR image formation and analysis, deep learning based image formation, AI, machine learning, azimuth focusing. [Abstract] [bibtex-entry]


  2. Brian P. Hawkins and Wayne Tung. UAVSAR Real-Time Embedded GPU Processor. In IGARSS 2019 - 2019 IEEE International Geoscience and Remote Sensing Symposium, pages 545-547, July 2019. Keyword(s): SAR Processing, GPU, real-time, azimuth focusing, Jetson, CUDA, SAR imaging. [Abstract] [bibtex-entry]


  3. Othmar Frey, Charles L. Werner, and Urs Wegmuller. GPU-based parallelized time-domain back-projection processing for agile SAR platforms. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1132-1135, July 2014. Keyword(s): SAR Processing, Azimuth Focusing, Time-Domain Back-Projection, TDBP, SAR focusing, GPU, GPU-based parallelized TDBP, graphics processing units, motion compensation, parallel processing, radar signal processing, synthetic aperture radar, 3D motion compensation, GPU based backprojection processing, NVIDIA CUDA GPU computing framework, SAR processing scheme, agile SAR platforms, car borne SAR data set, nonlinear sensor trajectories, parallelized backprojection processing, single look complex SAR images, slant azimuth geometry, slant range geometry, synthetic aperture, time domain backprojection processing, Azimuth, Focusing, Graphics processing units, Remote sensing, Synthetic aperture radar, Time-domain analysis, Azimuth focusing, CARSAR, CUDA, GPU, Nonlinear Sensor Trajectory, Parallelization, SAR imaging, SAR interferometry, Synthetic aperture radar (SAR), car-borne SAR, ground-based SAR system. [Abstract] [bibtex-entry]


  4. Kerry E. Dungan, LeRoy A. Gorham, and Linda J. Moore. SAR digital spotlight implementation in MATLAB. In Proc. SPIE, volume 8746, pages 1-11, 2013. Keyword(s): SAR Processing, Azimuth Focusing, Digital Spotlighting, Time-Domain Back-Projection, TDBP, Fast-Factorized Back-Projection, FFBP, MATLAB. [Abstract] [bibtex-entry]


  5. Thomas M. Benson, Daniel P. Campbell, and Daniel A. Cook. Gigapixel spotlight synthetic aperture radar backprojection using clusters of GPUs and CUDA. In 2012 IEEE Radar Conference, pages 0853-0858, May 2012. Keyword(s): SAR Processing, Back-Projection, Time-Domain Back-Projection, TDBP, CUDA, GPU, SAR Focusing, Azimuth Focusing, fast Fourier transforms, graphics processing units, parallel architectures, radar computing, radar imaging, resource allocation, synthetic aperture radar, CUDA Clusters, GPU Clusters, SAR image formation, computing nodes, fast Fourier transforms, gigapixel scale data set, gigapixel spotlight synthetic aperture radar backprojection, graphics processing units, image formation algorithms, image formation framework, nonplanar surfaces, wavefront planarity, Graphics processing unit, History, Interpolation, Kernel, Scalability, Sparse matrices, Synthetic aperture radar. [Abstract] [bibtex-entry]


  6. Ricardo Portillo, Sarala Arunagiri, Patricia J. Teller, Song J. Park, Lam H. Nguyen, Joseph C. Deroba, and Dale Shires. Power versus performance tradeoffs of GPU-accelerated backprojection-based synthetic aperture radar image formation. In Proc. SPIE, volume 8060, pages 1-21, 2011. Keyword(s): SAR Processing, Time-Domain Back-Projection, TDBP, Back-Projection, Non-Linear Flight Tracks, Curvilinear SAR, GPU, GPGPU, Graphics Processing Unit, Focusing, Azimuth Focusing, Airborne SAR, Motion Compensation. [bibtex-entry]


  7. Othmar Frey, Erich Meier, and Daniel Nüesch. Processing SAR data of rugged terrain by time-domain back-projection. In SPIE Vol. 5980: SAR Image Analysis, Modeling, and Techniques X, 2005. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, Terrain Correction, Radiometry, Radiometric Calibration, Radiometric Correction, Terrain, Topography, DEM Geocoding, ENVISAT/ASAR, Spaceborne SAR. [Abstract] [bibtex-entry]


  8. Rolf Scheiber and V. M. Bothale. Application of Multi-Look Techniques for Interferometric SAR Data. In Proc. of EUSAR 2002 - 4th European Conference on Synthetic Aperture Radar, Cologne, Germany, pages 77-80, June 2002. Keyword(s): SAR Processing, Extended Chirp Scaling, ECS, Chirp Scaling, CS, Azimuth Focusing, Multi-Look Processing, Non-Linear Flight Paths, Non-Linear SAR, Interferometry, InSAR, E-SAR, Airborne SAR, SAR interferometry, azimuth registration, geophysical measurement technique, image registration, interferometric SAR, land surface, motion compensation, multi-look method, multi-pass airborne method, multilook method, radar remote sensing, residual motion errors, spectral domain multi-look approach, synthetic aperture radar, terrain mapping. [Abstract] [bibtex-entry]


  9. Rolf Scheiber and V.M. Bothale. Interferometric multi-look techniques for SAR data. In IEEE International Geoscience and Remote Sensing Symposium, IGARSS '02, volume 1, pages 173-175, 2002. Keyword(s): SAR Processing, Extended Chirp Scaling, ECS, Chirp Scaling, CS, Azimuth Focusing, Multi-Look Processing, Non-Linear Flight Paths, Non-Linear SAR, Interferometry, InSAR, E-SAR, Airborne SAR, airborne radar, geophysical signal processing, geophysical techniques, radar imaging, remote sensing by radar, synthetic aperture radar, terrain mapping, SAR interferometry, azimuth registration, geophysical measurement technique, image registration, interferometric SAR, land surface, motion compensation, multi-look method, multi-pass airborne method, multilook method, radar remote sensing, residual motion errors, spectral domain multi-look approach. [Abstract] [bibtex-entry]


  10. Arnold Barmettler, Erich Meier, and Daniel Nüesch. Development of an Ultra-Wideband SAR Processor. In CEOS SAR Workshop 2001, April 2001. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, Ultra-Wideband SAR, VHF SAR, CARABAS, Airborne SAR. [Abstract] [bibtex-entry]


  11. J.L. Bauck and W. K. Jenkins. Convolution-backprojection image reconstruction for bistatic synthetic aperture radar. In Proc. IEEE Int. Symp. on Circuits and Systems, volume 3, pages 1512-1515, May 1989. Keyword(s): SAR Processing, Bistatic SAR, Back-Projection, bistatic synthetic aperture radar, Azimuth Focusing, convolution back-projection, elliptical-arc projections, final reconstructed image, ground patch, image resource, pixel, weighting, radar cross-sections, radar theory, Spotlight mode, Airborne SAR, Tomographic Processing, Tomography, Wavefront Curvature. [Abstract] [bibtex-entry]


  12. J. L. Bauck and W. K. Jenkins. Tomographic Processing of Spotlight-Mode Synthetic Aperture Radar Signals with Compensation for Wavefront Curvature. In ICASSP '88, International Conference on Acoustics, Speech, and Signal Processing, volume 2, pages 1192-1195, April 1988. Keyword(s): SAR Processing, Bistatic SAR, Back-Projection, bistatic synthetic aperture radar, Azimuth Focusing, convolution back-projection, elliptical-arc projections, final reconstructed image, ground patch, image resource, pixel, weighting, radar cross-sections, radar theory, Spotlight mode, Airborne SAR, Tomographic Processing, Tomography, Wavefront Curvature. [Abstract] [bibtex-entry]


  13. Ian G. Cumming and John R. Bennett. Digital processing of SEASAT SAR data. In Proc. Rec. IEEE Int. Conf. Acoust., Speech Signal, volume 4, Washington, DC, pages 710-718, April 1979. Keyword(s): SAR Processing, Seasat, Spaceborne SAR, Range Compression, Azimuth Compression, Azimuth Focusing. [Abstract] [bibtex-entry]


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This collection of SAR literature is far from being complete.
It is rather a collection of papers which I store in my literature data base. Hence, the list of publications under PUBLICATIONS OF AUTHOR'S NAME should NOT be mistaken for a complete bibliography of that author.




Last modified: Fri Feb 24 14:22:44 2023
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .


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