Perona, P.,
Deformable Kernels for Early Vision,
PAMI(17), No. 5, May 1995, pp. 488-499.
IEEE DOI
BibRef
9505
Earlier:
CVPR91(222-227).
IEEE DOI
Steerable Filters.
Wavelets.
Hierarchical Analysis. Compute the best digital approximation to the desired filter by using
a combination of small kernels.
BibRef
Perona, P.[Pietro],
Steerable-Scalable Kernels for Edge Detection and Junction Analysis,
IVC(10), No. 10, December 1992, pp. 663-672.
Elsevier DOI
BibRef
9212
Earlier:
ECCV92(3-18).
Springer DOI
Corner Detector.
BibRef
Manduchi, R.,
Perona, P.[Pietro],
Pyramidal implementation of deformable kernels,
ICIP95(I: 378-381).
IEEE DOI
9510
BibRef
Greenspan, H.K.[Hayit K.],
Belongie, S.J.[Serge J.],
Perona, P.,
Goodman, R.,
Rakshit, S.,
Anderson, C.,
Overcomplete Steerable Pyramid Filters and Rotation Invariance,
CVPR94(222-228).
IEEE DOI
BibRef
9400
Shy, D.,
Perona, P.,
X-Y separable pyramid steerable scalable kernels,
CVPR94(237-244).
IEEE DOI
BibRef
9400
Freeman, W.T., and
Adelson, E.H.,
The Design and Use of Steerable Filters,
PAMI(13), No. 9, September 1991, pp. 891-906.
IEEE DOI
BibRef
9109
Earlier:
Steerable Filters for Early Vision, Image Analysis and
Wavelet Decomposition,
ICCV90(406-415).
IEEE DOI
Adaptive Filters.
Award, ICCV Test of Time.
Filters. Design of adaptive directional filters for a variety of uses (edges, motion,
etc.). This is related to the other filter papers scattered throughout.
BibRef
Freeman, W.T.,
Steerable Filters and Analysis of Image Structure,
Ph.D.Thesis, 1992,
BibRef
9200
MIT
BibRef
Adelson, E.H.[Edward H.],
Freeman, W.T.[William T.],
Noise reduction system,
US_Patent5,526,446, Jun 11, 1996
WWW Link.
BibRef
9606
Beil, W.,
Steerable Filters and Invariance Theory,
PRL(15), No. 5, May 1994, pp. 453-460.
BibRef
9405
Simoncelli, E.P.[Eero P.],
Farid, H.[Hany],
Steerable Wedge Filters for Local Orientation Analysis,
IP(5), No. 9, September 1996, pp. 1377-1382.
IEEE DOI
HTML Version. and
PS File.
BibRef
9609
Earlier:
Steerable Wedge Filters,
ICCV95(189-194).
IEEE DOI orientation analysis, junctions.
HTML Version. or for postscript version:
PS File. or
PS File.
BibRef
Simoncelli, E.P.[Eero P.], and
Freeman, W.T.[William T.],
The Steerable Pyramid:
A Flexible Architecture for Multi-Scale Derivative Computation,
ICIP95(III: 444-447).
IEEE DOI
9510
Steerable Filter.
Code, Steerable Filter. tight frame, rotation-invariant filters.
HTML Version. And
PS File. Code is also available:
HTML Version.
BibRef
Karasaridis, A.,
Simoncelli, E.P.,
A Filter Design Technique For Steerable Pyramid Image Transforms,
ICASSP96(2387-2390).
HTML Version. And
PS File.
BibRef
9600
Michaelis, M., and
Sommer, G.,
A Lie Group Approach to Steerable Filters,
PRL(16), 1995, pp. 1165-1174.
BibRef
9500
Kubota, T.,
Alford, C.O.,
Computation of Orientational Filters for Real-Time
Computer Vision Problems III: Steerable System and VLSI Architecture,
RealTimeImg(3), No. 1, February 1997, pp. 37-58.
9703
BibRef
Hel-Or, Y.[Yacov],
Teo, P.C.[Patrick C.],
Canonical Decomposition of Steerable Functions,
JMIV(9), No. 1, July 1998, pp. 83-95.
DOI Link
9807
BibRef
Earlier:
CVPR96(809-816).
IEEE DOI
BibRef
Teo, P.C.[Patrick C.], and
Hel-Or, Y.[Yacov],
Lie Generators For Computing Steerable Functions,
PRL(19), No. 1, January 1998, pp. 7-17.
9807
BibRef
Teo, P.C.[Patrick C.], and
Hel-Or, Y.[Yacov],
Design of Multiparameter Steerable Functions Using Cascade Basis Reduction,
PAMI(21), No. 6, June 1999, pp. 552-556.
IEEE DOI
BibRef
9906
Earlier:
ICCV98(187-192).
IEEE DOI
BibRef
Teo, P.C.,
Hel-Or, Y.,
A Computational Approach to Steerable Functions,
CVPR97(313-318).
IEEE DOI
9704
How to describe groups of steerable functions.
BibRef
Bharath, A.A.,
Huberson, C.J.,
Obtaining medial responses from steerable filters,
VISP(146), No. 5, October 1999, pp. 286.
0002
See also Steerable Complex Wavelet Construction and Its Application to Image Denoising, A.
BibRef
Bharath, A.A.,
Steerable Filters from Erlang Functions,
BMVC98(xx-yy).
BibRef
9800
Acocella, E.C.[Emilio Carlos],
Alcaim, A.[Abraham],
Mathematical formulation of shape-adaptive 2-D transforms,
SPLetters(8), No. 10, October 2001, pp. 273-275.
IEEE Top Reference.
0111
BibRef
Jacob, M.[Mathews],
Unser, M.[Michael],
Design of Steerable Filters for Feature Detection Using Canny-Like
Criteria,
PAMI(26), No. 8, August 2004, pp. 1007-1019.
IEEE Abstract.
0407
BibRef
Earlier:
Optimal steerable filters for feature detection,
ICIP03(III: 433-436).
IEEE DOI
0312
Yields better filters for directionality.
BibRef
Aguet, F.,
Jacob, M.,
Unser, M.,
Three-Dimensional Feature Detection Using Optimal Steerable Filters,
ICIP05(II: 1158-1161).
IEEE DOI
0512
BibRef
Shi, X.,
Ribeiro Castro, A.L.,
Manduchi, R.,
Montgomery, R.,
Rotational Invariant Operators Based on Steerable Filter Banks,
SPLetters(13), No. 11, November 2006, pp. 684-687.
IEEE DOI
0610
BibRef
Lu, Y.M.[Yue M.],
Do, M.N.[Minh N.],
Multidimensional Directional Filter Banks and Surfacelets,
IP(16), No. 4, April 2007, pp. 918-931.
IEEE DOI
0704
BibRef
Celebi, M.E.[M. Emre],
Real-time implementation of order-statistics-based directional filters,
IET-IPR(3), No. 1, February 2009, pp. 1-9.
DOI Link
0905
BibRef
And:
Fast implementation of vector directional filters,
ICIP09(1665-1668).
IEEE DOI
0911
BibRef
Celebi, M.E.[M. Emre],
Distance measures for reduced ordering-based vector filters,
IET-IPR(3), No. 5, October 2009, pp. 249-260.
DOI Link
0911
BibRef
Celebi, M.E.[M. Emre],
Kingravi, H.A.[Hassan A.],
Lukac, R.[Rastislav],
Celiker, F.[Fatih],
Cost-effective implementation of order-statistics-based vector filters
using minimax approximations,
JOSA-A(26), No. 6, June 2009, pp. 1518-1524.
DOI Link
0906
BibRef
Celebi, M.E.[M. Emre],
Kingravi, H.A.[Hassan A.],
Celiker, F.[Fatih],
Accelerating color space transformations using numerical approximations,
ICIP10(1349-1352).
IEEE DOI
1009
BibRef
Celebi, M.E.[M. Emre],
Schaefer, G.[Gerald],
Zhou, H.Y.[Hui-Yu],
A new family of order-statistics based switching vector filters,
ICIP10(97-100).
IEEE DOI
1009
BibRef
Celebi, M.E.[M. Emre],
Celiker, F.[Fatih],
Kingravi, H.A.[Hassan A.],
On Euclidean norm approximations,
PR(44), No. 2, February 2011, pp. 278-283.
Elsevier DOI
1011
Euclidean norm; Approximation
BibRef
Celebi, M.E.[M. Emre],
Kingravi, H.A.[Hassan A.],
Celiker, F.[Fatih],
Fast colour space transformations using minimax approximations,
IET-IPR(4), No. 2, April 2010, pp. 70-80.
DOI Link
1003
BibRef
Rabbani, H.[Hossein],
Image denoising in steerable pyramid domain based on a local Laplace
prior,
PR(42), No. 9, September 2009, pp. 2181-2193.
Elsevier DOI
0905
Steerable pyramid; Denoising; MAP estimator; MMSE estimator
BibRef
Rabbani, H.[Hossein],
Video deblurring in complex wavelet domain using local Laplace prior
for enhancement and anisotropic spatially adaptive denoising for PSF
detection,
ICIP10(3329-3332).
IEEE DOI
1009
BibRef
Peng, X.,
Xu, J.,
Wu, F.,
Directional Filtering Transform for Image/Intra-Frame Compression,
IP(19), No. 11, November 2010, pp. 2935-2946.
IEEE DOI
1011
BibRef
Peng, X.L.[Xiu-Lian],
Xu, J.Z.[Ji-Zheng],
Zhou, Y.,
Wu, F.[Feng],
Highly Parallel Line-Based Image Coding for Many Cores,
IP(21), No. 1, January 2012, pp. 196-206.
IEEE DOI
1112
BibRef
Peng, X.L.[Xiu-Lian],
Xu, J.Z.[Ji-Zheng],
Hash-Based Line-by-Line Template Matching for Lossless Screen Image
Coding,
IP(25), No. 12, December 2016, pp. 5601-5609.
IEEE DOI
1612
image coding
BibRef
Wu, F.[Feng],
Peng, X.L.[Xiu-Lian],
Xu, J.Z.[Ji-Zheng],
LineCast: Line-Based Distributed Coding and Transmission for
Broadcasting Satellite Images,
IP(23), No. 3, March 2014, pp. 1015-1027.
IEEE DOI
1403
direct broadcasting by satellite
BibRef
Muehlich, M.[Matthias],
Friedrich, D.[David],
Aach, T.[Til],
Design and Implementation of Multisteerable Matched Filters,
PAMI(34), No. 2, February 2012, pp. 279-291.
IEEE DOI
1112
Detect multi-oriented patterns at specific orientations.
Combinations of single-steerable filters.
BibRef
Papari, G.,
Campisi, P.,
Petkov, N.,
New Families of Fourier Eigenfunctions for Steerable Filtering,
IP(21), No. 6, June 2012, pp. 2931-2943.
IEEE DOI
1202
BibRef
Charalampidis, D.[Dimitrios],
Efficient steerable circular harmonic functions,
PR(48), No. 5, 2015, pp. 1913-1924.
Elsevier DOI
1502
Steerable filters
BibRef
Landa, B.,
Shkolnisky, Y.,
The Steerable Graph Laplacian and its Application to Filtering Image
Datasets,
SIIMS(11), No. 4, 2018, pp. 2254-2304.
DOI Link
1901
BibRef
Püspöki, Z.,
Fageot, J.,
Amini, A.,
Ward, J.,
Unser, M.,
Angular Accuracy of Steerable Feature Detectors,
SIIMS(12), No. 1, 2019, pp. 344-371.
DOI Link
1904
BibRef
Fageot, J.[Julien],
Uhlmann, V.[Virginie],
Püspöki, Z.[Zsuzsanna],
Beck, B.[Benjamin],
Unser, M.[Michael],
Depeursinge, A.[Adrien],
Principled Design and Implementation of Steerable Detectors,
IP(30), 2021, pp. 4465-4478.
IEEE DOI
2104
Detectors, Signal to noise ratio, Splines (mathematics),
Estimation, Pipelines, Computational modeling, Biomedical imaging,
radial B-spines
BibRef
Tang, T.M.[Tommy M.],
Tagare, H.D.[Hemant D.],
Steerable Near-Quadrature Filter Pairs in Three Dimensions,
SIIMS(15), No. 2, 2022, pp. 670-700.
DOI Link
2206
BibRef
Wan, G.Y.[Gen-Yi],
Zhong, R.F.[Ruo-Fei],
Wu, C.H.[Chao-Hong],
Xu, Y.S.[Yu-Sheng],
Ye, Z.[Zhen],
Yu, K.[Ke],
Two-Step Matching Method Based on Co-Occurrence Scale Space Combined
with Second-Order Gaussian Steerable Filter,
RS(14), No. 23, 2022, pp. xx-yy.
DOI Link
2212
BibRef
Wang, J.[Jinfu],
Yang, F.[Feiran],
Yang, J.[Jun],
A Perspective on Fully Steerable Differential Beamformers for
Circular Arrays,
SPLetters(30), 2023, pp. 648-652.
IEEE DOI
2306
Jacobian matrices, Multiaccess communication, Microphone arrays,
Acoustics, Linear systems, Robustness, Information filters,
uniform circular array
BibRef
Krajsek, K.[Kai],
Mester, R.[Rudolf],
A Unified Theory for Steerable and Quadrature Filters,
VISAPP06(201-214).
Springer DOI
0711
BibRef
Derpanis, K.G.,
Gryn, J.M.,
Three-Dimensional Nth Derivative of Gaussian Separable Steerable
Filters,
ICIP05(III: 553-556).
IEEE DOI
0512
BibRef
Benoit, S.,
Ferrie, F.P.,
Steerable kernels for arbitrarily-sampled spaces,
ICPR04(III: 578-581).
IEEE DOI
0409
BibRef
Mahamud, S.[Shyjan],
Hebert, M.[Martial],
Efficient Recovery of Low-Dimensional Structure from High-Dimensional
Data,
ICCV99(592-599).
IEEE DOI Iterative randomized algorithm based on cascade basis reduction.
See also Design of Multiparameter Steerable Functions Using Cascade Basis Reduction.
BibRef
9900
Price, J.R.[Jeffery R.],
Hayes, III, M.H.[Monson H.],
Steerable Filter Cascades,
ICIP99(II:880-884).
IEEE DOI
BibRef
9900
Stoschek, A.,
Yu, T.P.Y.,
Hegerl, R.,
Rotation-Invariant and Robust Multiple-2D-Object Detection Using
Steerable Pyramid Denoising and Optimized Circular Harmonic Filters,
ICPR96(II: 376-380).
IEEE DOI
9608
(Max-Planck-Institute for Biochemistry, D)
BibRef
Michaelis, M.[Markus],
Herpers, R.[Rainer],
Sommer, G.[Gerald],
A common framework for preattentive and attentive vision using
steerable filters,
CAIP95(912-919).
Springer DOI
9509
BibRef
Ballard, D.H.,
Wixson, L.E.,
Object Recognition Using Steerable Filters at Multiple Scales,
WQV93(2-10).
BibRef
9300
Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Filters for Detecting Specific Features .