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ORCIDAmir Averbuch
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- affiliation: Tel Aviv University, Israel
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2020 – today
- 2024
[i22]Shir Barzel, Moshe Salhov, Ofir Lindenbaum, Amir Averbuch:
SEL-CIE: Knowledge-Guided Self-Supervised Learning Framework for CIE-XYZ Reconstruction from Non-Linear sRGB Images. CoRR abs/2405.12265 (2024)- 2023
- [j112]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev:
Directional wavelet packets originating from polynomial splines. Adv. Comput. Math. 49(2): 19 (2023) - [i21]Guy Zamberg, Moshe Salhov, Ofir Lindenbaum, Amir Averbuch:
TabADM: Unsupervised Tabular Anomaly Detection with Diffusion Models. CoRR abs/2307.12336 (2023) - 2022
- [j111]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev, Moshe Salhov, Jonathan Hauser:
An hybrid denoising algorithm based on directional wavelet packets. Multidimens. Syst. Signal Process. 33(4): 1151-1183 (2022) - [c62]Ofir Lindenbaum, Moshe Salhov, Amir Averbuch, Yuval Kluger:
L0-Sparse Canonical Correlation Analysis. ICLR 2022 - [d1]Jonathan Hauser
, Gal Shtendel, Amit Zeligman, Amir Averbuch, Menachem Nathan, Moshe Salhov:
OMHS - The Objects Mosaic Hyperspectral Database. IEEE DataPort, 2022
- [i20]Jonathan Gradstein, Moshe Salhov, Yoav Tulpan, Ofir Lindenbaum, Amir Averbuch:
Imbalanced Classification via a Tabular Translation GAN. CoRR abs/2204.08683 (2022) - [i19]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev, Moshe Salhov, Jonathan Hauser:
Cross-boosting of WNNM Image Denoising method by Directional Wavelet Packets. CoRR abs/2206.04431 (2022) - 2021
- [j110]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev, Moshe Salhov, Jonathan Hauser:
Image inpainting using directional wavelet packets originating from polynomial splines. Signal Process. Image Commun. 97: 116334 (2021) - [j109]Jonathan Hauser, Gal Shtendel, Amit Zeligman, Amir Averbuch, Menachem Nathan:
SHS-GAN: Synthetic Enhancement of a Natural Hyperspectral Database. IEEE Trans. Computational Imaging 7: 505-517 (2021) - [i18]Leon Ofman, Amir Averbuch, Adi Shliselberg, Idan Benaun, David Segev, Aron Rissman:
Automated identification of transiting exoplanet candidates in NASA Transiting Exoplanets Survey Satellite (TESS) data with machine learning methods. CoRR abs/2102.10326 (2021) - 2020
- [j108]Ofir Lindenbaum, Moshe Salhov, Arie Yeredor, Amir Averbuch:
Gaussian bandwidth selection for manifold learning and classification. Data Min. Knowl. Discov. 34(6): 1676-1712 (2020) - [j107]Ofir Lindenbaum, Arie Yeredor, Moshe Salhov, Amir Averbuch:
Multi-view diffusion maps. Inf. Fusion 55: 127-149 (2020) - [j106]Ofir Lindenbaum, Neta Rabin, Yuri Bregman, Amir Averbuch:
Seismic Event Discrimination Using Deep CCA. IEEE Geosci. Remote. Sens. Lett. 17(11): 1856-1860 (2020) - [c61]Keren Hochman, Amir Averbuch, Alon Schclar, Raid Saabni:
A Manifold Learning Framework for the Detection of Cardiac Disorders in Acoustic Signals. ICPRAM 2020: 192-197 - [c60]Dina Dushnik, Alon Schclar, Amir Averbuch, Raid Saabni:
A Diffusion Dimensionality Reduction Approach to Background Subtraction in Video Sequences. IJCCI 2020: 294-300 - [i17]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev:
Directional wavelet packets originating from polynomial splines. CoRR abs/2008.05364 (2020) - [i16]Ofir Lindenbaum, Moshe Salhov, Amir Averbuch, Yuval Kluger:
Deep Gated Canonical Correlation Analysis. CoRR abs/2010.05620 (2020)
2010 – 2019
- 2019
- [j105]Eldad Rubinstein, Moshe Salhov, Meital Nidam-Leshem, Valerie White, Shay Golan, Jack Baniel, Hanna Bernstine, David Groshar, Amir Averbuch:
Unsupervised tumor detection in Dynamic PET/CT imaging of the prostate. Medical Image Anal. 55: 27-40 (2019) - [c59]Alon Schclar, Amir Averbuch:
Unsupervised Detection of Sub-pixel Objects in Hyper-spectral Images via Diffusion Bases. IJCCI 2019: 496-501 - [i15]Amir Averbuch, Pekka Neittaanmäki, Valery A. Zheludev:
Analytic and directional wavelet packets in the space of periodic signals. CoRR abs/1907.01479 (2019) - 2018
- [j104]Ofir Lindenbaum, Yuri Bregman, Neta Rabin, Amir Averbuch:
Multiview Kernels for Low-Dimensional Modeling of Seismic Events. IEEE Trans. Geosci. Remote. Sens. 56(6): 3300-3310 (2018) - 2017
- [j103]Amir Averbuch, Pekka Neittaanmäki, Etay Shefi, Valery A. Zheludev:
Local cubic splines on non-uniform grids and real-time computation of wavelet transform. Adv. Comput. Math. 43(4): 733-758 (2017) - [j102]Amir Averbuch, Irete Peeri, Yehuda Roditty:
New upper bound on m-time-relaxed k-broadcast graphs. Networks 70(2): 72-78 (2017) - [j101]Oren Barkan, Jonathan Weill, Shai Dekel, Amir Averbuch:
A Mathematical Model for Adaptive Computed Tomography Sensing. IEEE Trans. Computational Imaging 3(4): 551-565 (2017) - [c58]Alon Schclar, Amir Averbuch:
A Diffusion Approach to Unsupervised Segmentation of Hyper-Spectral Images. IJCCI (Selected Papers) 2017: 163-178 - [c57]Alon Schclar, Amir Averbuch:
Unsupervised Segmentation of Hyper-spectral Images via Diffusion Bases. IJCCI 2017: 305-312 - [c56]Gil Shabat, David Segev, Amir Averbuch:
Uncovering Unknown Unknowns in Financial Services Big Data by Unsupervised Methodologies: Present and Future trends. ADF@KDD 2017: 8-19 - [i14]Ofir Lindenbaum, Yuri Bregman, Neta Rabin, Amir Averbuch:
Multi-View Kernels for Low-Dimensional Modeling of Seismic Events. CoRR abs/1706.01750 (2017) - [i13]Ofir Lindenbaum, Moshe Salhov, Arie Yeredor, Amir Averbuch:
Kernel Scaling for Manifold Learning and Classification. CoRR abs/1707.01093 (2017) - [i12]Yariv Aizenbud, Amir Averbuch, Gil Shabat, Guy Ziv:
Similarity Search Over Graphs Using Localized Spectral Analysis. CoRR abs/1707.03311 (2017) - 2016
- [j100]Yariv Aizenbud, Gil Shabat, Amir Averbuch:
Randomized LU decomposition using sparse projections. Comput. Math. Appl. 72(9): 2525-2534 (2016) - [j99]Arik Nemtsov, Amir Averbuch, Alon Schclar:
Matrix compression using the Nyström method. Intell. Data Anal. 20(5): 997-1019 (2016) - [j98]Moshe Salhov, Amit Bermanis, Guy Wolf, Amir Averbuch:
Learning from patches by efficient spectral decomposition of a structured kernel. Mach. Learn. 103(1): 81-102 (2016) - [j97]Amir Averbuch, Gil Shabat, Yoel Shkolnisky:
Direct Inversion of the Three-Dimensional Pseudo-polar Fourier Transform. SIAM J. Sci. Comput. 38(2) (2016) - [c55]Ofir Lindenbaum, Arie Yeredor, Amir Averbuch:
Clustering Based on MultiView Diffusion Maps. ICDM Workshops 2016: 740-747 - [c54]Oren Barkan, Amir Averbuch:
Robust mixture models for anomaly detection. MLSP 2016: 1-6 - [c53]Oren Barkan, Jonathan Weill, Amir Averbuch:
Gaussian process regression for out-of-sample extension. MLSP 2016: 1-6 - [i11]Yariv Aizenbud, Gil Shabat, Amir Averbuch:
Randomized LU Decomposition Using Sparse Projections. CoRR abs/1601.04280 (2016) - [i10]Oren Barkan, Jonathan Weill, Amir Averbuch:
Gaussian Process Regression for Out-of-Sample Extension. CoRR abs/1603.02194 (2016) - [i9]Moshe Salhov, Ofir Lindenbaum, Avi Silberschatz, Yoel Shkolnisky, Amir Averbuch:
Multi-View Kernel Consensus For Data Analysis and Signal Processing. CoRR abs/1606.08819 (2016) - [i8]Amit Bermanis, Aviv Rotbart, Moshe Salhov, Amir Averbuch:
Incomplete Pivoted QR-based Dimensionality Reduction. CoRR abs/1607.03456 (2016) - 2015
- [j96]Valery A. Zheludev, Ilkka Pölönen, Noora Neittaanmäki-Perttu, Amir Averbuch, Pekka Neittaanmäki, Mari Grönroos, Heikki Saari:
Delineation of malignant skin tumors by hyperspectral imaging using diffusion maps dimensionality reduction. Biomed. Signal Process. Control. 16: 48-60 (2015) - [j95]Gil Shabat, Yaniv Shmueli, Amit Bermanis, Amir Averbuch:
Accelerating Particle Filter Using Randomized Multiscale and Fast Multipole Type Methods. IEEE Trans. Pattern Anal. Mach. Intell. 37(7): 1396-1407 (2015) - [j94]Tuomo Sipola, Tapani Ristaniemi, Amir Averbuch:
Gear classification and fault detection using a diffusion map framework. Pattern Recognit. Lett. 53: 53-61 (2015) - [c52]Alon Schclar, Amir Averbuch:
Diffusion Bases Dimensionality Reduction. IJCCI (NCTA) 2015: 151-156 - [i7]Amir Averbuch, Gil Shabat, Yoel Shkolnisky:
Direct Inversion of the 3D Pseudo-polar Fourier Transform. CoRR abs/1507.06174 (2015) - [i6]Ofir Lindenbaum, Arie Yeredor, Moshe Salhov, Amir Averbuch:
MultiView Diffusion Maps. CoRR abs/1508.05550 (2015) - [i5]Moshe Salhov, Amit Bermanis, Guy Wolf, Amir Averbuch:
Diffusion Representations. CoRR abs/1511.06208 (2015) - 2014
- [p1]Guy Wolf, Amir Averbuch, Pekka Neittaanmäki:
Parameter Rating by Diffusion Gradient. Modeling, Simulation and Optimization for Science and Technology 2014: 225-248 - 2013
- [j93]Amir Averbuch, Valery A. Zheludev, Moshe Guttmann, Dan D. Kosloff:
Lct-Wavelet Based Algorithms for Data Compression. Int. J. Wavelets Multiresolution Inf. Process. 11(5) (2013) - [j92]Amir Averbuch, Michael Kiperberg, Nezer Jacob Zaidenberg:
Truly-Protect: An Efficient VM-Based Software Protection. IEEE Syst. J. 7(3): 455-466 (2013) - [c51]Oren Barkan, Jonathan Weill, Amir Averbuch, Shai Dekel:
Adaptive Compressed Tomography Sensing. CVPR 2013: 2195-2202 - [i4]Gil Shabat, Yaniv Shmueli, Amir Averbuch:
Missing Entries Matrix Approximation and Completion. CoRR abs/1302.6768 (2013) - [i3]Arik Nemtsov, Amir Averbuch, Alon Schclar:
Matrix Compression using the Nystroöm Method. CoRR abs/1305.0203 (2013) - [i2]Dina Dushnik, Alon Schclar, Amir Averbuch:
Video Segmentation via Diffusion Bases. CoRR abs/1305.0218 (2013) - [i1]Gil Shabat, Yaniv Shmueli, Amir Averbuch:
Randomized LU Decomposition. CoRR abs/1310.7202 (2013) - 2012
- [j91]Amir Averbuch, Neta Rabin, Alon Schclar, Valery A. Zheludev:
Dimensionality reduction for detection of moving vehicles. Pattern Anal. Appl. 15(1): 19-27 (2012) - [j90]Gil David, Amir Averbuch:
SpectralCAT: Categorical spectral clustering of numerical and nominal data. Pattern Recognit. 45(1): 416-433 (2012) - [j89]Amir Averbuch, Michael A. Zheludev:
Two Linear Unmixing Algorithms to Recognize Targets Using Supervised Classification and Orthogonal Rotation in Airborne Hyperspectral Images. Remote. Sens. 4(2): 532-560 (2012) - [j88]Amir Averbuch, Shai Dekel, Shay Deutsch:
Adaptive Compressed Image Sensing Using Dictionaries. SIAM J. Imaging Sci. 5(1): 57-89 (2012) - [j87]Mark Geles, Amir Averbuch, Ofer Amrani, Doron Ezri:
Performance Bounds for Maximum Likelihood Detection of Single Carrier FDMA. IEEE Trans. Commun. 60(7): 1945-1952 (2012) - [j86]Amir Averbuch, Ilya Sedelnikov, Yoel Shkolnisky:
CT Reconstruction From Parallel and Fan-Beam Projections by a 2-D Discrete Radon Transform. IEEE Trans. Image Process. 21(2): 733-741 (2012) - [j85]Amir Averbuch, Ilya Sedelnikov, Yoel Shkolnisky:
Corrections to "CT Reconstruction From Parallel and Fan-Beam Projections by a 2-D Discrete Radon Transform". IEEE Trans. Image Process. 21(6): 3119-3120 (2012) - [c50]Moshe Salhov, Guy Wolf, Amir Averbuch, Pekka Neittaanmäki:
Patch-Based Data Analysis Using Linear-Projection Diffusion. IDA 2012: 334-345 - [c49]Moshe Salhov, Guy Wolf, Amit Bermanis, Amir Averbuch, Pekka Neittaanmäki:
Dictionary Construction for Patch-to-Tensor Embedding. IDA 2012: 346-356 - [c48]Oren Barkan, Amir Averbuch, Shai Dekel, Yaniv Tenzer:
A Mathematical Model for Extremely Low Dose Adaptive Computed Tomography Acquisition. MMCS 2012: 13-33 - 2011
- [j84]Amir Averbuch, Valery A. Zheludev, Gary B. Fatakhov, Eduard H. Yakubov:
Ternary interpolatory Subdivision Schemes Originated from splines. Int. J. Wavelets Multiresolution Inf. Process. 9(4): 611-633 (2011) - [j83]Amir Averbuch, Guy Lifschitz, Yoel Shkolnisky:
Accelerating X-Ray Data Collection Using Pyramid Beam Ray Casting Geometries. IEEE Trans. Image Process. 20(2): 523-533 (2011) - [j82]Shimi Shilo, Anthony J. Weiss, Amir Averbuch:
Performance of Optimal Beamforming with Partial Channel Knowledge. IEEE Trans. Wirel. Commun. 10(12): 4035-4040 (2011) - [c47]Amir Averbuch, Tomer Margalit, Nezer Zaidenberg, Eviatar Khen:
Low Bitrate Asynchronous Replication of Block Devices and Virtual Machines. NAS 2011: 180-185 - [c46]Amir Averbuch, Michael Kiperberg, Nezer Zaidenberg:
An efficient VM-based software protection. NSS 2011: 121-128 - [c45]Shimi Shilo, Anthony J. Weiss, Amir Averbuch:
Beamforming with Partial Channel Knowledge. NTMS 2011: 1-5 - [c44]Fedor Chernogorov, Jussi Turkka, Tapani Ristaniemi, Amir Averbuch:
Detection of Sleeping Cells in LTE Networks Using Diffusion Maps. VTC Spring 2011: 1-5 - 2010
- [j81]Valery A. Zheludev, Amir Averbuch:
Computation of interpolatory splines via triadic subdivision. Adv. Comput. Math. 32(1): 63-72 (2010) - [j80]Alon Schclar, Amir Averbuch, Neta Rabin, Valery A. Zheludev, Keren Hochman:
A diffusion framework for detection of moving vehicles. Digit. Signal Process. 20(1): 111-122 (2010) - [j79]Amit Bermanis, Amir Averbuch, Yosi Keller:
3-D Symmetry Detection and Analysis Using the Pseudo-polar Fourier Transform. Int. J. Comput. Vis. 90(2): 166-182 (2010) - [j78]Amir Averbuch, Valery A. Zheludev, Pekka Neittaanmäki, Jenny Koren:
Block Based Deconvolution Algorithm Using Spline Wavelet Packets. J. Math. Imaging Vis. 38(3): 197-225 (2010) - [j77]Y. Falik, Amir Averbuch, Uri Yechiali:
Transmission algorithm for video streaming over cellular networks. Wirel. Networks 16(5): 1459-1475 (2010) - [c43]Gil David, Amir Averbuch, Ronald R. Coifman:
Hierarchical Clustering Via Localized Diffusion Folders. AAAI Fall Symposium: Manifold Learning and Its Applications 2010 - [c42]Neta Rabin, Amir Averbuch:
Detection of Anomaly Trends in Dynamically Evolving Systems. AAAI Fall Symposium: Manifold Learning and Its Applications 2010 - [c41]S. Harrusi, Amir Averbuch, Neta Rabin:
A Fast Compact Prefix Encoding for Pattern Matching in Limited Resources Devices. DCC 2010: 533
2000 – 2009
- 2009
- [j76]Amir Averbuch, Valery A. Zheludev, Neta Rabin, Alon Schclar:
Wavelet-based acoustic detection of moving vehicles. Multidimens. Syst. Signal Process. 20(1): 55 (2009) - [j75]Amir Averbuch, Valery A. Zheludev:
Spline-based deconvolution. Signal Process. 89(9): 1782-1797 (2009) - 2008
- [j74]Yosi Keller, Amir Averbuch:
Global parametric image alignment via high-order approximation. Comput. Vis. Image Underst. 109(3): 244-259 (2008) - [j73]Ofer Miller, Amir Averbuch, Ety Navon:
Tracking of Moving Objects in Video Through Invariant Features in Their Graph Representation. EURASIP J. Image Video Process. 2008 (2008) - [j72]Larisa Gitelman, Moshe Israeli, Amir Averbuch, Menachem Nathan, Zeev Schuss, Diana Golodnitsky:
Polymer geometry and Li+ conduction in poly(ethylene oxide). J. Comput. Phys. 227(18): 8437-8447 (2008) - [j71]Amir Averbuch, Ronald R. Coifman, David L. Donoho, Moshe Israeli, Yoel Shkolnisky:
A Framework for Discrete Integral Transformations I-The Pseudopolar Fourier Transform. SIAM J. Sci. Comput. 30(2): 764-784 (2008) - [j70]Amir Averbuch, Ronald R. Coifman, David L. Donoho, Moshe Israeli, Yoel Shkolnisky, Ilya Sedelnikov:
A Framework for Discrete Integral Transformations II-The 2D Discrete Radon Transform. SIAM J. Sci. Comput. 30(2): 785-803 (2008) - 2007
- [j69]Amir Averbuch, Valery A. Zheludev:
Wavelet Transforms Generated by splines. Int. J. Wavelets Multiresolution Inf. Process. 5(2): 257-291 (2007) - [j68]Ofer Amrani, Amir Averbuch, Tamir Cohen, Valery A. Zheludev:
Symmetric interpolatory Framelets and their Erasure Recovery Properties. Int. J. Wavelets Multiresolution Inf. Process. 5(4): 541-566 (2007) - [j67]Amir Averbuch, Gabi Liron, Ben-Zion Bobrovsky:
Scene based non-uniformity correction in thermal images using Kalman filter. Image Vis. Comput. 25(6): 833-851 (2007) - [j66]Larisa Gitelman, Moshe Israeli, Amir Averbuch, Menachem Nathan, Zeev Schuss, Diana Golodnitsky:
Modeling and simulation of Li-ion conduction in poly(ethylene oxide). J. Comput. Phys. 227(2): 1162-1175 (2007) - [j65]Yosi Keller, Amir Averbuch:
A projection-based extension to phase correlation image alignment. Signal Process. 87(1): 124-133 (2007) - [j64]Dror Alani, Amir Averbuch, Shai Dekel:
Image Coding With Geometric Wavelets. IEEE Trans. Image Process. 16(1): 69-77 (2007) - [j63]Amir Averbuch, Valery A. Zheludev, Tamir Cohen:
Multiwavelet Frames in Signal Space Originated From Hermite Splines. IEEE Trans. Signal Process. 55(3): 797-808 (2007) - 2006
- [j62]Yosi Keller, Amir Averbuch:
Multisensor Image Registration via Implicit Similarity. IEEE Trans. Pattern Anal. Mach. Intell. 28(5): 794-801 (2006) - [j61]Amir Averbuch, Valery A. Zheludev, Tamir Cohen:
Tight and sibling frames originated from discrete splines. Signal Process. 86(7): 1632-1647 (2006) - [j60]Amir Averbuch, Boris Epstein, Neta Rabin, Eli Turkel:
Edge-enhancement postprocessing using artificial dissipation. IEEE Trans. Image Process. 15(6): 1486-1498 (2006) - [j59]Joseph Abarbanel, Amir Averbuch, Shmuel Rosset, Joseph Zlotnick:
Unitary Nongroup STBC From Cyclic Algebras. IEEE Trans. Inf. Theory 52(9): 3903-3912 (2006) - [j58]Amir Averbuch, Valery A. Zheludev, Tamir Cohen:
Interpolatory frames in signal space. IEEE Trans. Signal Process. 54(6-1): 2126-2139 (2006) - [j57]Yosi Keller, Yoel Shkolnisky, Amir Averbuch:
Volume Registration Using the 3-D Pseudopolar Fourier Transform. IEEE Trans. Signal Process. 54(11): 4323-4331 (2006) - [c40]S. Harrusi, Amir Averbuch, Amiram Yehudai:
XML Syntax Conscious Compression. DCC 2006: 402-411 - [c39]Michael Ben-Israel, David Drezner, Amir Averbuch:
A Multi-Transform Search Algorithms to Enhance H.264/AVC Performance. ITRE 2006: 161-166 - [c38]David Drezner, Michael Ben-Israel, Amir Averbuch:
RDO Transform Selection for a Multi-Transform Video Encoder. ITRE 2006: 172-178 - [c37]Ofer Amrani, Amir Averbuch, Valery A. Zheludev:
Symmetric Interplatory Framelets and Their Erasure Recovery Properties. MRCS 2006: 643-649 - [c36]Amir Averbuch, G. Gelles, Alon Schclar:
Fast Hole-Filling in Images Via Fast Comparison of Incomplete Patches. MRCS 2006: 738-744 - 2005
- [j56]Ety Navon, Ofer Miller, Amir Averbuch:
Color image segmentation based on adaptive local thresholds. Image Vis. Comput. 23(1): 69-85 (2005) - [j55]Yosi Keller, Yoel Shkolnisky, Amir Averbuch:
The Angular Difference Function and Its Application to Image Registration. IEEE Trans. Pattern Anal. Mach. Intell. 27(6): 969-976 (2005) - [j54]Ofer Miller, Arie Pikaz, Amir Averbuch:
Objects based change detection in a pair of gray-level images. Pattern Recognit. 38(11): 1976-1992 (2005) - [j53]Elena Braverman, Moshe Israeli, Amir Averbuch:
A Hierarchical 3-D Direct Helmholtz Solver by Domain Decomposition and Modified Fourier Method. SIAM J. Sci. Comput. 26(5): 1504-1524 (2005) - [j52]Yosi Keller, Amir Averbuch, Moshe Israeli:
Pseudopolar-based estimation of large translations, rotations, and scalings in images. IEEE Trans. Image Process. 14(1): 12-22 (2005) - [j51]Amir Averbuch, Alon Schclar, David L. Donoho:
Deblocking of block-transform compressed images using weighted sums of symmetrically aligned pixels. IEEE Trans. Image Process. 14(2): 200-212 (2005) - [c35]Yosi Keller, Amir Averbuch:
Robust Image Alignment using Third-order Global Motion Estimation. BMVC 2005 - [c34]Yosi Keller, Amir Averbuch, Yoel Shkolnisky:
Algebraically Accurate Volume Registration Using Euler's Theorem and the 3-D Pseudo-Polar FFT. CVPR (2) 2005: 795-800 - [c33]Yosi Keller, Yoel Shkolnisky, Amir Averbuch:
A non Cartesian FFT approach to image alignment. ICIP (3) 2005: 1050-1053 - [c32]Yosi Keller, Yoel Shkolnisky, Amir Averbuch:
Accurate multi-dimensional alignment. ICIP (3) 2005: 1052-1055 - [c31]Yosi Keller, Amir Averbuch, Moshe Israeli:
Pseudo-Polar Based Estimation of Large Translations Rotations and Scalings in Images. WACV/MOTION 2005: 201-206 - 2004
- [j50]Amir Averbuch, Eyal Hulata, Valery A. Zheludev, Inna Kozlov:
Identification of Acoustic Signatures for Vehicles via Reduction of Dimensionality. Int. J. Wavelets Multiresolution Inf. Process. 2(1): 1-22 (2004) - [j49]Elena Braverman, Boris Epstein, Moshe Israeli, Amir Averbuch:
A Fast Spectral Subtractional Solver for Elliptic Equations. J. Sci. Comput. 21(1): 91-128 (2004) - [j48]Amir Averbuch, Valery A. Zheludev:
A new family of spline-based biorthogonal wavelet transforms and their application to image compression. IEEE Trans. Image Process. 13(7): 993-1007 (2004) - [j47]Yosi Keller, Amir Averbuch:
Fast motion estimation using bidirectional gradient methods. IEEE Trans. Image Process. 13(8): 1042-1054 (2004) - [c30]Yosi Keller, Amir Averbuch, Ofer Miller:
Robust Phase Correlation. ICPR (2) 2004: 740-743 - 2003
- [j46]Yosi Keller, Amir Averbuch:
Fast gradient methods based on global motion estimation for video compression. IEEE Trans. Circuits Syst. Video Technol. 13(4): 300-309 (2003) - [c29]Yosi Keller, Amir Averbuch:
Implicit similarity: a new approach to multi-sensor image registration. CVPR (2) 2003: 543-548 - [c28]Ofer Miller, Amir Averbuch, Yosi Keller:
Unsupervised Segmentation of Moving MPEG Blocks Based on Classification of Temporal Information. DICTA 2003: 175-184 - [c27]Ety Navon, Ofer Miller, Amir Averbuch:
Color Image Segmentation based on Automatic Derivation of Local Thresholds. DICTA 2003: 571-580 - [c26]Ofer Miller, Amir Averbuch, Yosi Keller:
Automatic Adaptive Segmentation of Moving Objects Based on Spatio-Temporal Information. DICTA 2003: 1007-1016 - [c25]Ofer Miller, Ety Navon, Amir Averbuch:
Tracking of moving objects based on graph edges similarity. ICME 2003: 73-76 - 2002
- [j45]Moshe Israeli, Elena Braverman, Amir Averbuch:
A Hierarchical 3-D Poisson Modified Fourier Solver by Domain Decomposition. J. Sci. Comput. 17(1-4): 471-479 (2002) - [j44]Yaakov Tsaig, Amir Averbuch:
Automatic segmentation of moving objects in video sequences: a region labeling approach. IEEE Trans. Circuits Syst. Video Technol. 12(7): 597-612 (2002) - [j43]François G. Meyer, Amir Averbuch, Ronald R. Coifman:
Multilayered image representation: application to image compression. IEEE Trans. Image Process. 11(9): 1072-1080 (2002) - [j42]Amir Averbuch, Valery A. Zheludev:
Lifting scheme for biorthogonal multiwavelets originated from Hermite splines. IEEE Trans. Signal Process. 50(3): 487-500 (2002) - [c24]Alon Schclar, Amir Averbuch, David L. Donoho:
Deblocking of block-DCT compressed images using deblocking frames of variable size. ICASSP 2002: 3285-3288 - [c23]Amir Averbuch, Yosi Keller:
FFT based image registration. ICASSP 2002: 3608-3611 - [c22]Amir Averbuch, Yosi Keller:
Fast motion estimation using Bidirectional Gradient Methods. ICASSP 2002: 3616-3619 - [c21]Yosi Keller, Amir Averbuch, Ofer Miller:
Fast gradient methods based global motion estimation for video compression. ICIP (1) 2002: 665-668 - 2001
- [j41]Amir Averbuch, Yehuda Roditty, Barack Shoham:
Efficient line broadcasting in a d-dimensional grid. Discret. Appl. Math. 113(2-3): 129-141 (2001) - [j40]Amir Averbuch, Eyal Hulata, Valery A. Zheludev, Inna Kozlov:
A Wavelet Packet Algorithm for Classification and Detection of Moving Vehicles. Multidimens. Syst. Signal Process. 12(1): 9-31 (2001) - [j39]Amir Averbuch, Iris Gaber, Yehuda Roditty:
Low-cost minimum-time line-broadcasting schemes in complete binary trees. Networks 38(4): 189-193 (2001) - [j38]Amir Averbuch, Alexander B. Pevnyi, Valery A. Zheludev:
Butterworth wavelet transforms derived from discrete interpolatory splines: recursive implementation. Signal Process. 81(11): 2363-2382 (2001) - [j37]Danny Lazar, Amir Averbuch:
Wavelet-based video coder via bit allocation. IEEE Trans. Circuits Syst. Video Technol. 11(7): 815-832 (2001) - [j36]Amir Averbuch, François G. Meyer, Jan-Olov Strömberg, Ronald R. Coifman, Anthony Vassiliou:
Low bit-rate efficient compression for seismic data. IEEE Trans. Image Process. 10(12): 1801-1814 (2001) - [j35]Amir Averbuch, Alexander B. Pevnyi, Valery A. Zheludev:
Biorthogonal Butterworth wavelets derived from discrete interpolatory splines. IEEE Trans. Signal Process. 49(11): 2682-2692 (2001) - [c20]Yaakov Tsaig, Amir Averbuch:
A Region-Based MRF Model for Unsupervised Segmentation of Moving Objects in Image Sequences. CVPR (1) 2001: 889-896 - [c19]Danny Lazar, Amir Averbuch:
Wavelet video compression using region based motion estimation and compensation. ICASSP 2001: 1597-1600 - [c18]Valery A. Zheludev, Amir Averbuch, Alexander B. Pevnyi:
Biorthogonal Butterworth wavelets. ICASSP 2001: 3645-3648 - 2000
- [j34]Amir Averbuch, Yehuda Roditty, Barack Shoham:
Performance analysis of hybrid network multiprocessor architecture. Concurr. Pract. Exp. 12(9): 821-844 (2000) - [j33]Amir Averbuch, Elena Braverman, Moshe Israeli:
Parallel Adaptive Solution of a Poisson Equation with Multiwavelets. SIAM J. Sci. Comput. 22(3): 1053-1086 (2000) - [j32]François G. Meyer, Amir Averbuch, Jan-Olov Strömberg:
Fast adaptive wavelet packet image compression. IEEE Trans. Image Process. 9(5): 792-800 (2000) - [j31]Amir Averbuch, Boris Epstein, Ludimila Ioffe, Irad Yavneh:
Efficient Parallelization of a Three-Dimensional Navier-Stokes Solver on MIMD Multiprocessors. J. Supercomput. 17(2): 123-142 (2000)
1990 – 1999
- 1999
- [j30]Amir Averbuch, Yehuda Roditty, Barack Shoham:
Scheduling tasks of multi-join queries in a multiprocessor. Concurr. Pract. Exp. 11(5): 247-279 (1999) - [j29]Elena Braverman, Moshe Israeli, Amir Averbuch:
A Fast Spectral Solver for a 3D Helmholtz Equation. SIAM J. Sci. Comput. 20(6): 2237-2260 (1999) - [j28]Amir Averbuch, Moshe Israeli, François G. Meyer:
Speed versus quality in low bit-rate still image compression. Signal Process. Image Commun. 15(3): 231-254 (1999) - 1998
- [j27]Amir Averbuch, Albert Cohen:
Efficient multicast design in a microkernel environment. Concurr. Pract. Exp. 10(7): 497-548 (1998) - [j26]Amir Averbuch, Eran Gabber:
Portable parallel FFT for MIMD multiprocessors. Concurr. Pract. Exp. 10(8): 583-605 (1998) - [j25]Arie Pikaz, Amir Averbuch:
On the Relation between Second-Order Statistics, Connectivity Analysis, and Percolation Models in Digital Textures. Graph. Model. Image Process. 60(3): 226-232 (1998) - [j24]Amir Averbuch, Ludimila Ioffe, Moshe Israeli, Lev Vozovoi:
Two-Dimensional Parallel Solver for the Solution of Navier-Stokes Equations with Constant and Variable Coefficients Using ADI on Cells. Parallel Comput. 24(5-6): 673-699 (1998) - [j23]Amir Averbuch, Moshe Israeli, Lev Vozovoi:
A Fast Poisson Solver of Arbitrary Order Accuracy in Rectangular Regions. SIAM J. Sci. Comput. 19(3): 933-952 (1998) - [j22]Dganit Amitai, Amir Averbuch, Moshe Israeli, Samuel Itzikowitz:
Implicit-Explicit Parallel Asynchronous Solver of Parabolic PDEs. SIAM J. Sci. Comput. 19(4): 1366-1404 (1998) - [c17]François G. Meyer, Amir Averbuch, Jan-Olov Strömberg, Ronald R. Coifman:
Fast Wavelet Packet Image Compression. Data Compression Conference 1998: 563 - [c16]François G. Meyer, Amir Averbuch, Jan-Olov Strömberg, Ronald R. Coifman:
Multi-Layered Image Representation: Application to Image Compression. ICIP (2) 1998: 292-296 - 1997
- [j21]Arie Pikaz, Amir Averbuch:
An Efficient Topological Characterization of Gray-Levels Textures, Using a Multiresolution Representation. CVGIP Graph. Model. Image Process. 59(1): 1-17 (1997) - [j20]Amir Averbuch, Lev Vozovoi, Moshe Israeli:
On a fast direct elliptic solver by a modified Fourier method. Numer. Algorithms 15(3-4): 287-313 (1997) - [j19]Amir Averbuch, Ludimila Ioffe, Moshe Israeli, Lev Vozovoi:
Highly Scalable Two- and Three-Dimensional Navier-Stokes Parallel Solvers on MIMD Multiprocessors. J. Supercomput. 11(1): 7-39 (1997) - [c15]François G. Meyer, Amir Averbuch, Ronald R. Coifman:
Motion Compensation of Wavelet Coefficients for Very Low Bit Rate Coding. ICIP (3) 1997: 638-641 - [c14]Dganit Amitai, Amir Averbuch, Moshe Israeli:
Asynchronous Parallel Solvers for Hyperbolic Conservation Laws. PP 1997 - [c13]Amir Averbuch, Ludimila Ioffe, Moshe Israeli, Lev Vozovoi:
Highly Scalable 2-D and 3-D Navier-Stokes Parallel Solver on MIMD Multiprocessors. PP 1997 - 1996
- [j18]Amir Averbuch, R. Dekel, Eran Gabber:
Portable parallelizing Fortran compiler. Concurr. Pract. Exp. 8(2): 91-123 (1996) - [j17]Dganit Amitai, Amir Averbuch, Moshe Israeli, Samuel Itzikowitz:
On parallel asynchronous high-order solutions of parabolic PDEs. Numer. Algorithms 12(1): 159-192 (1996) - [j16]Arie Pikaz, Amir Averbuch:
Digital image thresholding, based on topological stable-state. Pattern Recognit. 29(5): 829-843 (1996) - [j15]Arie Pikaz, Amir Averbuch:
On automatic threshold selection for polygonal approximations of digital curves. Pattern Recognit. 29(11): 1835-1845 (1996) - [j14]Amir Averbuch, Danny Lazar, Moshe Israeli:
Image compression using wavelet transform and multiresolution decomposition. IEEE Trans. Image Process. 5(1): 4-15 (1996) - 1995
- [j13]Amir Averbuch, Moshe Israeli, Lev Vozovoi:
Parallel Implementation of Non-Linear Evolution Problems Using Parabolic Domain Decomposition. Parallel Comput. 21(7): 1151-1183 (1995) - [c12]Amir Averbuch, Moshe Israeli, Lev Vozovoi:
Parallel Implementation of Non-Linear Evolution Problems Using Parabolic Domain Decomposition. PP 1995: 379-384 - 1994
- [j12]Amir Averbuch, Dganit Amitai, Ronen Friedman, Eran Gabber:
Portable Parallel implementation of BLAS 3. Concurr. Pract. Exp. 6(5): 411-459 (1994) - [j11]Dganit Amitai, Amir Averbuch, Samuel Itzikowitz, Eli Turkel:
Asynchronous and corrected-asynchronous finite difference solutions of PDEs on MIMD multiprocessors. Numer. Algorithms 6(2): 275-296 (1994) - [j10]Amir Averbuch, Eran Gabber, Samuel Itzikowitz, Barack Shoham:
On the Parallel Elliptic Single/Multigrid Solutions about Aligned and Nonaligned Bodies Using the Virtual Machine for Multiprocessors. Sci. Program. 3(1): 13-32 (1994) - 1993
- [j9]Gil Aharoni, Amir Averbuch, Ronald R. Coifman, Moshe Israeli:
Local cosine transform - a method for the reduction of the blocking effect in JPEG. J. Math. Imaging Vis. 3(1): 7-38 (1993) - [j8]Eran Gabber, Amir Averbuch, Amiram Yehudai:
Portable, Parallelizing Compiler. IEEE Softw. 10(2): 71-81 (1993) - [j7]Samuel Itzikowitz, Amir Averbuch:
General smoothing techniques for estimating deterministic undamped sinusoidal frequencies from noisy data. IEEE Trans. Signal Process. 41(4): 1698-1701 (1993) - 1992
- [j6]Amir Averbuch, Nader H. Bshouty, Michael Kaminski:
A Classification of Algorithms for Multiplying Polynomials of Small Degree over Finite Fields. J. Algorithms 13(4): 577-588 (1992) - [c11]Ilan Sadeh, Amir Averbuch:
Bounds on Parallel Computation of Multivariate Polynomials. ISTCS 1992: 147-153 - 1991
- [j5]Israel Gohberg, Israel Koltracht, Amir Averbuch, Barack Shoham:
Timing analysis of a parallel algorithm for Toeplitz matrices on a MIMD parallel machine. Parallel Comput. 17(4-5): 563-577 (1991) - [j4]Amir Averbuch, Zvi Galil, Shmuel Winograd:
Classification of All the Minimal Bilinear Algorithms for Computing the Coefficients of the Product of Two Polynomials Modulo a Polynomial. Part II: The Algebra G[u]/<u^n>. Theor. Comput. Sci. 86(2): 143-203 (1991) - [j3]Amir Averbuch, Samuel Itzikowitz, Tal Kapon:
Parallel Implementation of Multiple Model Tracking Algorithms. IEEE Trans. Parallel Distributed Syst. 2(2): 242-252 (1991) - [c10]Amir Averbuch, Samuel Itzikowitz, Tal Kapon:
Multifilters for radar tracking of a maneuvering target-Viterbi vs. IMM. ICASSP 1991: 1825-1828 - [c9]Eran Gabber, Amir Averbuch, Amiram Yehudai:
Experience with a Portable Parallelizing Pascal Compiler. ICPP (2) 1991: 207-210 - [c8]Israel Gohberg, Israel Koltracht, Amir Averbuch, Barack Shoham:
Timing Analysis of a Parallel Algorithm for Toeplitz Matrices on a MIMD Parallel Machine. ICPP (3) 1991: 312-313 - 1990
- [j2]Amir Averbuch, Eran Gabber, Boaz Gordissky, Yoav Medan:
A parallel FFT on an MIMD machine. Parallel Comput. 15(1-3): 61-74 (1990) - [c7]Samuel Itzikowitz, Amir Averbuch:
General smoothing techniques for estimating deterministic sinusoidal frequencies from noisy data. ICASSP 1990: 2583-2586 - [c6]D. Alpert, Amir Averbuch, O. Danieli:
Performance Comparison of Load/Store and Symmetric Instruction Set Architectures. ISCA 1990: 172-181
1980 – 1989
- 1989
- [c5]Amir Averbuch, Eran Gabber, Boaz Gordissky:
A Parallel FFT on an MIMD Machine. ICPP (3) 1989: 63-70 - [c4]Dganit Amitai, Amir Averbuch, Samuel Itzikowitz, Eli Turkel:
Asynchronous Numerical Solution of PDES on Parallel Computers. PP 1989: 131-136 - 1988
- [j1]Amir Averbuch, Zvi Galil, Shmuel Winograd:
Classification of All the Minimal Bilinear Algorithms for Computing the Coefficients of the Product of Two Polynomials Modulo a Polynomial, Part I: The Algeabra G[u] / < Q(u)^l >, l > 1. Theor. Comput. Sci. 58: 17-56 (1988) - 1987
- [c3]Amir Averbuch, Lalit R. Bahl, Raimo Bakis, Peter F. Brown, Gregg Daggett, S. Das, Ken Davies, Steven V. De Gennaro, Peter V. de Souza, E. Epstein, D. Fraleigh, Frederick Jelinek, B. Lewis, Robert L. Mercer, J. Moorhead, Arthur Nádas, David Nahamoo, Michael Picheny, G. Shichman, P. Spinelli, Dirk Van Compernolle, H. Wilkens:
Experiments with the Tangora 20, 000 word speech recognizer. ICASSP 1987: 701-704 - 1986
- [c2]Amir Averbuch, Shmuel Winograd, Zvi Galil:
Classification of all the Minimal Bilinear Algorithms for Computing the Coefficients of the Product of Two Polynomials Modulo a Polynomial. ICALP 1986: 31-39 - [c1]Amir Averbuch, Lalit R. Bahl, Raimo Bakis, Peter F. Brown, A. G. Cole, Gregg Daggett, Subrata K. Das, Ken Davies, S. DeGennaro, Peter V. de Souza, E. Epstein, D. Fraleigh, Frederick Jelinek, Slava M. Katz, B. Lewis, Robert L. Mercer, Arthur Nádas, David Nahamoo, Michael Picheny, G. Shichman, P. Spinelli:
An IBM PC based large-vocabulary isolated-utterance speech recognizer. ICASSP 1986: 53-56
Coauthor Index
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