9.7.1 Texture for Surface Orientation

Chapter Contents (Back)
Texture, Orientation. Shape from Texture.

Flock, H.,
Optical Texture and Linear Perspective as Stimuli for Slant Perception,
PsychR(72), 1965, pp. 505-514. BibRef 6500

Rosenfeld, A.,
A Note on Automatic Detection of Texture Gradients,
TC(24), 1975, pp. 988-991. BibRef 7500

Bajcsy, R.K.[Ruzena K.], and Lieberman, L.I.,
Texture Gradient as a Depth Cue,
CGIP(5), No. 1, 1976, pp. 52-67. BibRef 7600
Earlier:
Computer Description of Real Outdoor Scenes,
ICPR74(174-179). Descriptions based on textures. BibRef

Lieberman, L.I.[Lawrence I.],
Computer Recognition and Description of Natural Scenes,
Ph.D.Thesis, June 1974. Univ. Penn., EE. BibRef 7406

Stevens, K.A.,
The Information Content of Texture Gradients,
BioCyber(42), 1981, pp. 95-105. BibRef 8100

Stevens, K.A.[Kent A.],
Slant-Tilt: The Visual Encoding of Surface Orientation,
BioCyber(46), 1983, pp. 183-195. BibRef 8300

Stevens, K.A.,
Surface Perception from Local Analysis of Texture and Contour,
Ph.D.Thesis (EE), 1978, BibRef 7800 MIT BibRef MIT AI-TR-512, 1978.
WWW Link. Surface orientation from texture gradients. BibRef

Stevens, K.A.[Kent A.],
Computation of Locally Parallel Structure,
BioCyber(29), No. 1, 1978, pp. 19-28. BibRef 7800
Earlier: DARPAN78(92-102). BibRef
And: MIT AI Memo-392, March 1977. BibRef

Stevens, K.A.,
Representing and Analyzing Surface Orientations,
AI-MIT79(104-125). Shorter version of the thesis. BibRef 7900

Kanatani, K.I.[Ken-Ichi],
Detection of Surface Orientation and Motion from Texture by a Stereological Technique,
AI(23), No. 2, July 1984, pp. 213-237.
Elsevier DOI BibRef 8407
And: IU87(45-71). See also Shape from Texture: General Principle. BibRef

Brown, L.G., and Shvaytser, H.,
Surface Orientation from Projective Foreshortening of Isotropic Texture Autocorrelation,
PAMI(12), No. 6, June 1990, pp. 584-588.
IEEE DOI BibRef 9006
Earlier: CVPR88(510-514).
IEEE DOI BibRef
And: DARPA88(1155-1159). Assume that the texture is isotropic (not necessarily with texels) and get the orientation. BibRef

Brown, L.G., and Ibrahim, H.A.H.,
A Parallel Implementation and Exploration of Witkin's Shape from Texture Method,
DARPA87(927-932). The new implementation also fixes some errors in the original. BibRef 8700

Super, B.J.[Boaz J.], Bovik, A.C.[Alan C.],
Planar Surface Orientation from Texture Spatial-Frequencies,
PR(28), No. 5, May 1995, pp. 729-743.
Elsevier DOI BibRef 9505
And:
Three-Dimensional Orientation from Texture Using Gabor Wavelets,
SPIE(1606), November 1991, pp. 574-586. Spatial-Frequency approach. See also Shape from Texture Using Local Spectral Moments. BibRef

Super, B.J.[Boaz J.],
Filters for Directly Detecting Surface Orientation in an Image,
SPIE(1818), November 1992, pp. 144-155. BibRef 9211

Buse, R., Tsui, H.T.,
Estimating Surface Orientation from Directional Textures,
PRL(14), 1993, pp. 431-439. BibRef 9300

Tsui, H.T., Buse, R.,
Surface Orientation From Random Texture With Directional Bias,
ICPR92(I:362-365).
IEEE DOI BibRef 9200

Davies, C.J., Nixon, M.S.,
A Hough Transform for Detecting the Location and Orientation of 3-Dimensional Surfaces Via Color Encoded Spots,
SMC-B(28), No. 1, February 1998, pp. 90-95.
IEEE Top Reference. 9802
BibRef

Hwang, W.L., Lu, C.S., Chung, P.C.,
Shape from Texture: Estimation of Planar Surface Orientation Through the Ridge Surfaces of Continuous Wavelet Transform,
IP(7), No. 5, May 1998, pp. 773-780.
IEEE DOI 9805
BibRef

Lu, C.S.[Chun-Shien], Hwang, W.L.[Wen-Liang], Liao, H.Y.M.[Hong-Yung Mark], Chung, P.C.[Pau-Choo],
Shape from texture based on the ridge of continuous wavelet transform,
ICIP96(I: 295-298).
IEEE DOI BibRef 9600

Chantler, M.J., Delguste, G.B.,
Illuminant-Tilt Estimation from Images of Isotropic Texture,
VISP(144), No. 4, August 1997, pp. 213-219. 9806
BibRef

Ribeiro, E.[Eraldo], Hancock, E.R.[Edwin R.],
Estimating the 3D orientation of texture planes using local spectral analysis,
IVC(18), No. 8, 15 May 2000, pp. 619-631.
Elsevier DOI 0003
BibRef

Ribeiro, E.[Eraldo], Hancock, E.R.[Edwin R.],
Improved Orientation Estimation for Texture Planes Using Multiple Vanishing Points,
PR(33), No. 10, October 2000, pp. 1599-1610.
Elsevier DOI 0006
BibRef
Earlier: CAIP99(508-515).
Springer DOI 9909
BibRef
And:
Improved Pose Estimation for Texture Planes using Multiple Vanishing Points,
ICIP99(I:148-152).
IEEE DOI BibRef

Ribeiro, E.[Eraldo], Hancock, E.R.[Edwin R.],
Estimating the perspective pose of texture planes using spectral analysis on the unit sphere,
PR(35), No. 10, October 2002, pp. 2141-2163.
Elsevier DOI 0206
BibRef

Ribeiro, E., Sartori, F., Hancock, E.R.,
An evidence combining approach to shape-from-shading,
ICPR02(I: 624-627).
IEEE DOI 0211
BibRef

Sartori, F., Hancock, E.R.,
Combining curvature evidence to shape-from-shading,
ICIP03(III: 709-712).
IEEE DOI 0312
BibRef

Ribeiro, E., Hancock, E.R.,
Accumulating Spectral Evidence for Perspective Views of Texture Planes,
BMVC99(Single View Techniques).
PDF File. BibRef 9900

Ribeiro, E., Hancock, E.R.,
Adapting Scale by Minimising Spectral Defocusing for Shape from Texture,
ICIP00(Vol III: 893-896).
IEEE DOI 0008
BibRef

Ribeiro, E., Hancock, E.R.,
A Scale Adaptive Method for Focusing Spectral Peaks,
ICPR00(Vol III: 119-122).
IEEE DOI 0009
BibRef

Ribeiro, E., Hancock, E.R.,
Adapting Spectral Scale for Shape from Texture,
ECCV00(I: 421-435).
Springer DOI 0003
BibRef

Ribeiro, E., Hancock, E.R.,
3-D Planar Orientation from Texture: Estimating Vanishing Point from Local Spectral Analysis,
BMVC98(326-335). Vanishing Point approach. BibRef 9800

Ribeiro, E.[Eraldo], Robles-Kelly, A.[Antonio], Hancock, E.R.[Edwin R.],
Detecting Multiple Texture Planes using Local Spectral Distortion,
IVC(20), No. 9-10, August 2002, pp. 739-750.
Elsevier DOI 0208
BibRef
Earlier: A1, A3 only: BMVC00(xx-yy).
PDF File. 0009
BibRef

Ribeiro, E.[Eraldo], Hancock, E.R.[Edwin R.],
Shape from Periodic Texture Using the Eigenvectors of Local Affine Distortion,
PAMI(23), No. 12, December 2001, pp. 1459-1465.
IEEE DOI 0112
Local slant and tilt. Work in frequency domain use affine distortion of the pattern of spectral peaks. BibRef

Carcassoni, M., Ribeiro, E., Hancock, E.R.,
Eigenvector method for texture recognition,
ICIP02(III: 321-324).
IEEE DOI 0210
BibRef

Donate, A.[Arturo], Dahme, G.[Gary], Ribeiro, E.[Eraldo],
Classification of Textures Distorted by Water Waves,
ICPR06(II: 421-424).
IEEE DOI 0609
BibRef

Robles-Kelly, A., Hancock, E.R.,
An Eigenvector method for shape-from-shading,
CIAP03(474-479).
IEEE DOI 0310
BibRef

Ribeiro, E.[Eraldo], Worthington, P.L.[Philip L.], Hancock, E.R.[Edwin R.],
An Eigendecomposition Method for Shape-from-texture,
ICPR00(Vol I: 758-761).
IEEE DOI 0009
BibRef

Worthington, P.L.[Philip L.],
Reillumination-driven shape from shading,
CVIU(98), No. 2, May 2005, pp. 325-343.
Elsevier DOI 0501
Place constraints on the images that can be derived from shape. E.g. reilluminate under other lighting conditions produces artefacts. See also Coarse View Synthesis Using Shape-from-Shading. BibRef

Worthington, P.L.[Philip L.],
Re-illuminating single images using Albedo estimation,
PR(38), No. 8, August 2005, pp. 1261-1274.
Elsevier DOI 0505
BibRef

Keil, M.S.[Matthias S.], Cristóbal, G.[Gabriel],
Separating the chaff from the wheat: Possible Origins of the Oblique Effect,
JOSA-A(17), No. 4, April 2000, pp. 697-710. 0005
BibRef

Francos, J.M., Permuter, H.H.,
Parametric estimation of the orientation of textured planar surfaces,
IP(10), No. 3, March 2001, pp. 403-418.
IEEE DOI 0104
BibRef
Earlier: A2, A1:
A parametric approach for estimating the orientation of planar surfaces,
ICIP98(II: 181-185).
IEEE DOI 9810
BibRef

Habib, A.[Ayman], Kelley, D.[Devin],
Automatic relative orientation of large scale imagery over urban areas using Modified Iterated Hough Transform,
PandRS(56), No. 1, June 2001, pp. 29-41.
HTML Version. 0108
BibRef

Leung, T.[Thomas], Malik, J.[Jitendra],
Representing and Recognizing the Visual Appearance of Materials using Three-dimensional Textons,
IJCV(43), No. 1, June 2001, pp. 29-44.
DOI Link 0108
BibRef
Earlier:
Recognizing Surfaces using Three-Dimensional Textons,
ICCV99(1010-1017).
IEEE DOI BibRef

Leung, T., Malik, J.,
Detecting, Localizing and Grouping Repeated Scene Elements from an Image,
ECCV96(I:546-555).
Springer DOI and
HTML Version. Detecting interesting objects, match with neighbors, grow the element, group the element. BibRef 9600

Le Pouliquen, F.[Franck], da Costa, J.P.[Jean-Pierre], Germain, C.[Christian], Baylou, P.[Pierre],
A new adaptive framework for unbiased orientation estimation in textured images,
PR(38), No. 11, November 2005, pp. 2032-2046.
Elsevier DOI 0509
BibRef

Rosas, P.[Pedro], Wagemans, J.[Johan], Ernst, M.O.[Marc O.], Wichmann, F.A.[Felix A.],
Texture and haptic cues in slant discrimination: reliability-based cue weighting without statistically optimal cue combination,
JOSA-A(22), No. 5, May 2005, pp. 801-809.
WWW Link. 0601
BibRef

Chen, Y.S.[Yi-Song], Ip, H.H.S.[Horace H. S.],
Efficient extraction of metric measurements for planar scene under 2D homography with the help of planar circles,
MVA(17), No. 2, May 2006, pp. 139-146.
Springer DOI 0605
BibRef

Farid, H.[Hany], Kosecka, J.,
Estimating Planar Surface Orientation Using Bispectral Analysis,
IP(16), No. 8, August 2007, pp. 2154-2160.
IEEE DOI 0709
Nonlinearities introduced by perspective projection lead to higher order correlations in the frequency domain. BibRef

Greiner, T., Rao, S.G.[Shivani G.], Das, S.[Sukhendu],
Estimation of orientation of a textured planar surface using projective equations and separable analysis with M-channel wavelet decomposition,
PR(43), No. 1, January 2010, pp. 230-243,.
Elsevier DOI 0909
Shape from texture; Projective equations; Polar coordinate system; M-channel wavelet analysis; Surface orientation; Orientation estimation BibRef


Ahmad, S.[Shahzor], Cheong, L.F.[Loong-Fah],
Facilitating and Exploring Planar Homogeneous Texture for Indoor Scene Understanding,
ECCV16(II: 35-51).
Springer DOI 1611
BibRef

Sheikh, Y.[Yaser], Haering, N.C.[Niels C.], Shah, M.[Mubarak],
Shape from Dynamic Texture for Planes,
CVPR06(II: 2285-2292).
IEEE DOI 0606
BibRef

Rasmussen, C.,
Texture-Based Vanishing Point Voting for Road Shape Estimation,
BMVC04(xx-yy).
HTML Version. 0508
BibRef

Plantier, J., Lelandais, S., Boatte, L.,
Orientation computation of an inclined textured plane: Study of results for regular macro textures,
ICIP02(III: 853-856).
IEEE DOI 0210
BibRef

Ribeiro, E.[Eraldo], Hancock, E.R.[Edwin R.],
Texture Plane Orientation from Spectral Accumulation,
ICPR00(Vol I: 802-806).
IEEE DOI 0009
BibRef

Fujiwara, H.[Hisanaga], Zhang, Z.[Zhong],
Estimating vanishing points using visual spatial frequencies of textures on planar surfaces,
ICIP99(IV:425-429).
IEEE DOI BibRef 9900

Belhumeur, P.N.[Peter N.], Yuille, A.L.[Alan L.],
Recovering Object Surfaces from Viewed Changes in Surface Texture Patterns,
ICCV95(876-881).
IEEE DOI Finding a surface, so more than just local measures. Does not assume textures are isotropic and does not assume a sample of fronto-parallel textures are available. BibRef 9500

Yuille, A.L.,
Shape from Shading, Occlusion and Texture,
MIT AI Memo-885, May 1987. BibRef 8705

Terauchi, M., Matsushima, H., Tsuji, T., and Ito, K.,
Extraction of Surface Orientation Using Gray Level Difference Statistics,
VF91(527-536). Find the surface tilt for a texture. BibRef 9100

Ohta, Y.I., Maenobu, K., and Sakai, T.,
Obtaining Surface Orientation from Texels Under Perspective Projection,
IJCAI81(746-751). Given the texels, the orientation can be found. BibRef 8100

Brzakovic, D., White, B.,
Surface Orientation Using Texture Gradient Derived from Two Views of a Scene,
ICPR86(1045-1047). BibRef 8600

Chapter on 3-D Shape from X -- Shading, Textures, Lasers, Structured Light, Focus, Line Drawings continues in
Shape and Structure from Perspective Effects, Vanishing Points, Detection .


Last update:Jun 23, 2018 at 14:58:54