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Publications about 'Graphics processing unit'

Articles in journal or book chapters

  1. 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]


  2. 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, 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]


  3. Octavio Ponce, Pau Prats-Iraola, Muriel Pinheiro, Marc Rodriguez-Cassola, Rolf Scheiber, Andreas Reigber, and Alberto Moreira. Fully Polarimetric High-Resolution 3-D Imaging With Circular SAR at L-Band. IEEE Trans. Geosci. Remote Sens., 52(6):3074-3090, June 2014. Keyword(s): SAR Processing, Circular SAR, Time-Domain Back-Projection, TDBP, MoComp, Motion Compensation, Bandwidth, Image resolution, Imaging, L-band, Synthetic aperture radar, Trajectory, Autofocus, circular synthetic aperture radar (CSAR), fast factorized back-projection, FFBP, graphics processing unit (GPU), high-resolution SAR, polarimetry, synthetic aperture radar (SAR), tomography, SAR Tomography. [Abstract] [bibtex-entry]


  4. 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]


  5. Susanne Kunis and Stefan Kunis. The nonequispaced FFT on graphics processing units. PAMM, 12(1):7-10, 2012. Keyword(s): Non-equispaced Fourier Transform, Non-equispaced FFT, NFFT, Fast Fourier Transform, FFT, CUDA, GPU, CUNFFT. [Abstract] [bibtex-entry]


Conference articles

  1. R. Que, Octavio Ponce, Rolf Scheiber, and Andreas Reigber. Real-time processing of SAR images for linear and non-linear tracks. In Proc. 17th Int. Radar Symp. (IRS), pages 1-4, May 2016. Keyword(s): airborne radar, backpropagation, radar imaging, synthetic aperture radar, DLR's F-SAR sensor, GPU, SAR images, airborne SAR, direct backprojection, distributed real-time processing, fast factorized back-projection algorithms, linear tracks, multiprocessors multicore CPU, nonlinear tracks, real-time computation, Containers, Graphics processing units, Instruction sets, Interpolation, Radar tracking, Real-time systems, Synthetic aperture radar. [bibtex-entry]


  2. 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]


  3. 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]


  4. O. Ponce, P. Prats, M. Rodriguez-Cassola, R. Scheiber, and A. Reigber. Processing of Circular SAR trajectories with Fast Factorized Back-Projection. In Proc. IEEE Int. Geoscience and Remote Sensing Symp, pages 3692-3695, July 2011. Keyword(s): geophysical techniques, remote sensing by radar, Circular SAR trajectories, Germany, Kaufbeuren region, azimuth variance, computational time factor, fast factorized back-projection, graphics processor unit, Accuracy, Apertures, Focusing, Geometry, Graphics processing unit, Image resolution, Trajectory, Circular SAR (CSAR), Fast Back Projection (FBP), Graphics Processor Unit (GPU), focusing, polarimetry. [bibtex-entry]


  5. 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]


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Please note that access to full text PDF versions of papers is restricted to the Chair of Earth Observation and Remote Sensing, Institute of Environmental Engineering, ETH Zurich.
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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: Mon Feb 1 16:39:59 2021
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .


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