9.4.4 Albedo, Reflectance Map from Multiple Images

Woodham, R.J.,
Analyzing Curved Surfaces Using Reflectance Map Techniques,
MIT-AI79(161-182). BibRef 7900

Woodham, R.J.,
Reflectance Map Techniques for Analyzing Surface Defects in Metal Casings,
MIT AI-TR-457, June 1978. BibRef 7806 Ph.D.Thesis.
WWW Version. BibRef

Tagare, H.D., and de Figueiredo, R.J.P.,
Simultaneous Estimation of Shape and Reflectance Map from Photometric Stereo,
CVGIP(55), No. 3, May 1992, pp. 275-286.
WWW Version. BibRef 9205
Earlier: ICCV90(340-343).
IEEE DOI Link See also Theory of Photometric Stereo for a Class of Diffuse Non-Lambertian Surfaces, A. BibRef

Tagare, H.D., and de Figueiredo, R.J.P.,
A Framework for the Construction of Reflectance Maps for Machine Vision,
CVGIP(57), No. 3, May 1993, pp. 265-282.
WWW Version. Discusses generation of reflectance maps, which can then be used in Shape from shading. BibRef 9305

Nayar, S.K., Ikeuchi, K., and Kanade, T.,
Determining Shape and Reflectance of Hybrid Surfaces by Photometric Sampling,
RA(6), No. 4, August 1990, pp. 418-431. BibRef 9008
Earlier:
Extracting Shape and Reflectance of Hybrid Surfaces by Photometric Sampling,
DARPA89(563-583). Color. This combines many ideas and used Lambertian surfaces and highlights and multiple light sources. Multiple colors are used integralso. BibRef

Chiao, C.C.[Chuan-Chin], Osorio, D.[Daniel], Vorobyev, M.[Misha], Cronin, T.W.[Thomas W.],
Characterization of natural illuminants in forests and the use of digital video data to reconstruct illuminant spectra,
JOSA-A(17), No. 10, October 2000, pp. 1713-1721. 0010
BibRef

Kirk, R.L.[Randolph L.], Soderblom, L.A.[Laurence A.], Cushing, G.[Glen], Tituus, T.A.[Timothy A.],
Joint Analysis of Visible and Infrared Images: A 'Magic Airbrush' for Qualitative and Quantitative Topography,
PhEngRS(71), No. 10, October 2005, pp. 1167-1178.
WWW Version. Simple algebraic processing of co-registered visible and day and night thermal IR images can be used to separate albedo and thermal inertia variations from topographic shading. 0602
BibRef

Drew, M.S.[Mark S.], Finlayson, G.D.[Graham D.],
Analytic solution for separating spectra into illumination and surface reflectance components,
JOSA-A(24), No. 2, February 2007, pp. 294-303.
WWW Version. 0801
BibRef

Morovic, P.[Peter], Finlayson, G.D.[Graham D.],
Metamer-set-based approach to estimating surface reflectance from camera RGB,
JOSA-A(23), No. 8, August 2006, pp. 1814-1822.
WWW Version. 0610
BibRef

Yu, T.L.[Tian-Li], Xu, N.[Ning], Ahuja, N.[Narendra],
Shape and View Independent Reflectance Map from Multiple Views,
IJCV(73), No. 2, June 2007, pp. 123-138.
Springer DOI Link 0702
BibRef
Earlier:
Recovering shape and reflectance model of non-lambertian objects from multiple views,
CVPR04(II: 226-233).
IEEE Abstract. IEEE Top Reference. 0408
BibRef

Yu, T.L.[Tian-Li], Ahuja, N.[Narendra], Chen, W.C.[Wei-Chao],
SDG Cut: 3D Reconstruction of Non-lambertian Objects Using Graph Cuts on Surface Distance Grid,
CVPR06(II: 2269-2276).
IEEE DOI Link 0606
BibRef

Chandra, K.[Kartik], Healey, G.[Glenn],
Using Coupled Subspace Models for Reflectance/Illumination Separation,
GeoRS(46), No. 1, January 2008, pp. 284-290.
IEEE DOI Link 0712
BibRef
Earlier:
Using Coupled Subspace Models for Recovery of Reflectance Spectra from Airborne Images,
CVPR05(II: 1146-1151).
IEEE DOI Link 0507
BibRef

Jenny, P.[Patrick], Mourad, S.[Safer], Stamm, T.[Tobias], Vöge, M.[Markus], Simon, K.[Klaus],
Computing light statistics in heterogeneous media based on a mass weighted probability density function method,
JOSA-A(24), No. 8, August 2007, pp. 2206-2219.
WWW Version. 0801
BibRef

Vasconcelos, C.N., Sa, A., Teixeira, L.P., Carvalho, P.C.P., Gattass, M.,
Real-Time Video Processing for Multi-Object Chromatic Tracking,
BMVC08(xx-yy).
PDF Version. 0809
BibRef

Carvalho, P.C.P.[Paulo C. P.], Mendes, L., Martins, P., Santos, A.,
Extension and Evaluation of Selection criteria for the Estimation of Spectral Data,
ICIP06(1521-1524). 0610

IEEE DOI Link BibRef

Bowen, A.[Adam], Mullins, A.[Andrew], Wilson, R.G.[Roland G.], Rajpoot, N.M.[Nasir M.],
Light Field Reconstruction Using a Planar Patch Model,
SCIA05(85-94).
Springer DOI Link 0506
BibRef
And: A2, A1, A3, A4:
Estimating Planar Patches for Light Field Reconstruction,
BMVC05(xx-yy).
HTML Version. 0509
BibRef

Du, F.[Fei], Okabe, T.[Takahiro], Sato, Y.[Yoichi], Sugimoto, A.,
Reflectance estimation from motion under complex illumination,
ICPR04(III: 218-222).
IEEE DOI Link 0409
BibRef

Blicher, A.P., Roy, S., Penev, P.S.,
Lightsphere: Fast Lighting Compensation for Matching a 2D Image to a 3D Model,
ICPR04(II: 157-162).
IEEE DOI Link 0409
BibRef

Mallick, S.P.[Satya P.], Zickler, T.E.[Todd E.], Belhumeur, P.N.[Peter N.], Kriegman, D.J.[David J.],
Specularity Removal in Images and Videos: A PDE Approach,
ECCV06(I: 550-563).
Springer DOI Link 0608
BibRef

Mallick, S.P.[Satya P.], Zickler, T.E.[Todd E.], Kriegman, D.J.[David J.], Belhumeur, P.N.[Peter N.],
Beyond Lambert: Reconstructing Specular Surfaces Using Color,
CVPR05(II: 619-626).
IEEE DOI Link 0507
BibRef

Magda, S.[Sebastian], Kriegman, D.J.[David J.], Zickler, T.E.[Todd E.], Belhumeur, P.N.[Peter N.],
Beyond Lambert: Reconstructing Surfaces with Arbitrary BRDFs,
ICCV01(II: 391-398).
IEEE DOI Link
PDF Version. 0106
Bi-Directional Reflectance Distribution Function. 2 methods -- stereo, but swap camera and light for the pair of images. And Light field stereo (i.e. all possible point light sources). BibRef

Hertzmann, A., Seitz, S.M.,
Shape and materials by example: a photometric stereo approach,
CVPR03(I: 533-540).
IEEE Abstract. IEEE Top Reference. 0307
BibRef

Narasimhan, S.G., Ramesh, V., Nayar, S.K.,
A class of photometric invariants: separating material from shape and illumination,
ICCV03(1387-1394).
IEEE DOI Link 0311
BibRef

Chen, C.Y.[Chia-Yen], Klette, R., Kakarala, R.,
Albedo recovery using a photometric stereo approach,
ICPR02(III: 700-703).
IEEE DOI Link 0211
BibRef

Weiss, Y.[Yair],
Deriving Intrinsic Images from Image Sequences,
ICCV01(II: 68-75).
IEEE DOI Link 0106
Stationary camera, changing sun. Multiple images give the reflectance image separate from the illumination. BibRef

Mukawa, N.,
Estimation of Shape, Reflection Coefficients and Illuminant Direction from Image Sequences,
ICCV90(507-512).
IEEE DOI Link BibRef 9000

Aparicio, J.I.[Javier Iglesia], García-Bermejo, J.G.[Jaime Gomez],
An Approach for Determining Phong Reflectance Parameters from Real Objects,
ICPR00(Vol III: 572-575).
IEEE DOI Link
HTML Version. 0009
BibRef

Garcia-Bermejo, J.G.[Jaime Gomez], Diaz Pernas, F.J., Coronado, J.L.[J. Lopez],
An Approach for Determining Bidirectional Reflectance Parameters from Range and Brightness Data,
ICIP96(I: 41-44).
IEEE DOI Link BibRef 9600

Faure, F.[François],
Inverting the reflectance map with binary search,
CAIP95(814-819).
Springer DOI Link 9509
BibRef

Chapter on 3-D Shape from X -- Shading, Textures, Lasers, Structured Light, Focus, Line Drawings continues in
Shape from Laser Ranging and Structured Light Images .