BRDF Representation and Acquisition

Photorealistic rendering of real world environments is important in a range of different areas; including Visual Special effects, Interior/Exterior Modelling, Architectural Modelling, Cultural Heritage, Computer Games and Automotive Design.

[1]  Wojciech Matusik,et al.  Inverse shade trees for non-parametric material representation and editing , 2006, ACM Trans. Graph..

[2]  William H. Press,et al.  Numerical Recipes in FORTRAN - The Art of Scientific Computing, 2nd Edition , 1987 .

[3]  Holly Rushmeier,et al.  Experiments with a low-cost system for computer graphics material model acquisition , 2015, Electronic Imaging.

[4]  Athinodoros S. Georghiades,et al.  Recovering 3-D Shape and Reflectance From a Small Number of Photographs , 2003, Rendering Techniques.

[5]  Pieter Peers,et al.  Practical modeling and acquisition of layered facial reflectance , 2008, SIGGRAPH Asia '08.

[6]  S. Marschner,et al.  Inverse Rendering for Computer Graphics , 1998 .

[7]  Marc Stamminger,et al.  Finite element methods for global illumination computations , 2000 .

[8]  Tomas Akenine-Möller,et al.  Real-time rendering, 3rd Edition , 2008 .

[9]  Nancy Argüelles,et al.  Author ' s , 2008 .

[10]  Steve Marschner,et al.  Discrete stochastic microfacet models , 2014, ACM Trans. Graph..

[11]  Michael H. Brill,et al.  Color appearance models , 1998 .

[12]  Peter Shirley,et al.  A microfacet-based BRDF generator , 2000, SIGGRAPH.

[13]  Peter Shirley,et al.  The halfway vector disk for BRDF modeling , 2006, TOGS.

[14]  Eugene L. Church,et al.  Optimal estimation of finish parameters , 1991, Optics & Photonics.

[15]  Stephen Lin,et al.  Photorealistic rendering of knitwear using the lumislice , 2001, SIGGRAPH.

[16]  Jonathan T. Moon,et al.  A radiative transfer framework for rendering materials with anisotropic structure , 2010, ACM Trans. Graph..

[17]  Julie Dorsey,et al.  Digital Modeling of Material Appearance , 2007 .

[18]  Paul Lalonde,et al.  A Wavelet Representation of Reflectance Functions , 1997, IEEE Trans. Vis. Comput. Graph..

[19]  Steve Marschner,et al.  A practical model for subsurface light transport , 2001, SIGGRAPH.

[20]  John M. Snyder,et al.  Manifold bootstrapping for SVBRDF capture , 2010, ACM Trans. Graph..

[21]  Kun Zhou,et al.  Interactive relighting with dynamic BRDFs , 2007, SIGGRAPH 2007.

[22]  Matthew O'Toole,et al.  A Basis Illumination Approach to BRDF Measurement , 2010, International Journal of Computer Vision.

[23]  László Szirmay-Kalos,et al.  Compact Metallic Reflectance Models , 1999, Comput. Graph. Forum.

[24]  Pierre Poulin,et al.  Extracting Microfacet‐based BRDF Parameters from Arbitrary Materials with Power Iterations , 2015, Comput. Graph. Forum.

[25]  Matthew Brand,et al.  Charting a Manifold , 2002, NIPS.

[26]  Jirí Filip,et al.  Digital Material Appearance: The Curse of Tera-Bytes , 2012, ERCIM News.

[27]  Ken Perlin,et al.  Measuring bidirectional texture reflectance with a kaleidoscope , 2003, ACM Trans. Graph..

[28]  T. Trowbridge,et al.  Average irregularity representation of a rough surface for ray reflection , 1975 .

[29]  Jirí Filip,et al.  Bidirectional Texture Function Modeling: A State of the Art Survey , 2009, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[30]  Pat Hanrahan,et al.  Reflection from layered surfaces due to subsurface scattering , 1993, SIGGRAPH.

[31]  Donald P. Greenberg,et al.  Non-linear approximation of reflectance functions , 1997, SIGGRAPH.

[32]  Rosana Montes Soldado,et al.  An Overview of BRDF Models , 2012 .

[33]  Mathias Paulin,et al.  BRDF Measurement Modelling using Wavelets for Efficient Path Tracing , 2003, Comput. Graph. Forum.

[34]  Pieter Peers,et al.  Reflectance scanning , 2014, ACM Trans. Graph..

[35]  Steven M. Seitz,et al.  Shape and Spatially-Varying BRDFs from Photometric Stereo , 2005, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[36]  Holly E. Rushmeier,et al.  Digital modeling of the appearance of materials , 2005, SIGGRAPH Courses.

[37]  Holly E. Rushmeier,et al.  A Sparse Parametric Mixture Model for BTF Compression, Editing and Rendering , 2011, Comput. Graph. Forum.

[38]  Jaakko Lehtinen,et al.  Two-shot SVBRDF capture for stationary materials , 2015, ACM Trans. Graph..

[39]  Pieter Peers,et al.  Mobile Surface Reflectometry , 2014, SIGGRAPH '14.

[40]  David J. Kriegman,et al.  Photometric stereo with non-parametric and spatially-varying reflectance , 2008, 2008 IEEE Conference on Computer Vision and Pattern Recognition.

[41]  Greg Ward A Practical Framework for Sharing and Rendering Real-World Bidirectional Scattering Distribution Functions , 2014 .

[42]  Ralf Sarlette,et al.  Photo‐realistic Rendering of Metallic Car Paint from Image‐Based Measurements , 2008, Comput. Graph. Forum.

[43]  Shree K. Nayar,et al.  Reflectance and texture of real-world surfaces , 1999, TOGS.

[44]  Hans-Peter Seidel,et al.  Image-based reconstruction of spatial appearance and geometric detail , 2003, TOGS.

[45]  Steve Marschner,et al.  Building volumetric appearance models of fabric using micro CT imaging , 2011, ACM Trans. Graph..

[46]  Pascal Barla,et al.  Statistical analysis of bidirectional reflectance distribution functions , 2015, Electronic Imaging.

[47]  Giuseppe Claudio Guarnera,et al.  Absolute colorimetric characterization of a DSLR camera , 2014, Electronic Imaging.

[48]  Pascal Barla,et al.  In Praise of an Alternative BRDF Parametrization , 2015, Material Appearance Modeling.

[49]  L. Tucker,et al.  Some mathematical notes on three-mode factor analysis , 1966, Psychometrika.

[50]  F. Clarke,et al.  Helmholtz Reciprocity: its validity and application to reflectometry , 1985 .

[51]  Stephen H. Westin,et al.  Predicting reflectance functions from complex surfaces , 1992, SIGGRAPH.

[52]  Mahdi Nezamabadi,et al.  Color Appearance Models , 2014, J. Electronic Imaging.

[53]  Karol Myszkowski,et al.  Reverse engineering approach to appearance-based design of metallic and pearlescent paints , 2004, The Visual Computer.

[54]  Amitabh Varshney,et al.  Interactive subsurface scattering for translucent meshes , 2003, I3D '03.

[55]  H. Seidel,et al.  DISCO: acquisition of translucent objects , 2004, ACM Trans. Graph..

[56]  Jirí Filip,et al.  Rapid Material Appearance Acquisition Using Consumer Hardware , 2014, Sensors.

[57]  Jaakko Lehtinen,et al.  Practical SVBRDF capture in the frequency domain , 2013, ACM Trans. Graph..

[58]  Philippe Bekaert,et al.  High quality mesostructure acquisition using specularities , 2008, 2008 IEEE Conference on Computer Vision and Pattern Recognition.

[59]  Arne Dür,et al.  An Improved Normalization for the Ward Reflectance Model , 2006, J. Graph. Tools.

[60]  Christophe Schlick,et al.  An Inexpensive BRDF Model for Physically‐based Rendering , 1994, Comput. Graph. Forum.

[61]  Szymon Rusinkiewicz,et al.  Efficient BRDF importance sampling using a factored representation , 2004, SIGGRAPH 2004.

[62]  Ramesh Raskar,et al.  Single view reflectance capture using multiplexed scattering and time-of-flight imaging , 2011, SA '11.

[63]  Hans-Peter Seidel,et al.  Validation of Color Managed 3D Appearance Acquisition , 2004, Color Imaging Conference.

[64]  Carsten Dachsbacher,et al.  The SGGX microflake distribution , 2015, ACM Trans. Graph..

[65]  Alain Fournier,et al.  Separating Reflection Functions for Linear Radiosity , 1995, Rendering Techniques.

[66]  Andrew Gardner,et al.  Linear light source reflectometry , 2003, ACM Trans. Graph..

[67]  Peter Shirley,et al.  An Anisotropic Phong BRDF Model , 2000, J. Graphics, GPU, & Game Tools.

[68]  F. A. Seiler,et al.  Numerical Recipes in C: The Art of Scientific Computing , 1989 .

[69]  Yannick Boucher,et al.  Wavelet-based modeling of spectral bidirectional reflectance distribution function data , 2004 .

[70]  Jirí Filip,et al.  Template‐Based Sampling of Anisotropic BRDFs , 2014, Comput. Graph. Forum.

[71]  Tomas Akenine-Möller,et al.  Wavelet importance sampling: efficiently evaluating products of complex functions , 2005, ACM Trans. Graph..

[72]  László Szirmay-Kalos,et al.  An anisotropic BRDF model for fitting and Monte Carlo rendering , 2010, COMG.

[73]  Jan Kautz,et al.  Interactive rendering with arbitrary BRDFs using separable approximations , 1999, SIGGRAPH '99.

[74]  Steve Marschner,et al.  Estimating dual-scale properties of glossy surfaces from step-edge lighting , 2011, ACM Trans. Graph..

[75]  Steven M. Seitz,et al.  Shape and spatially-varying BRDFs from photometric stereo , 2005, Tenth IEEE International Conference on Computer Vision (ICCV'05) Volume 1.

[76]  Baining Guo,et al.  Pocket reflectometry , 2011, SIGGRAPH 2011.

[77]  Szymon Rusinkiewicz,et al.  A New Change of Variables for Efficient BRDF Representation , 1998, Rendering Techniques.

[78]  F. E. Nicodemus,et al.  Geometrical considerations and nomenclature for reflectance , 1977 .

[79]  Hans-Peter Seidel,et al.  DISCO: acquisition of translucent objects , 2004, ACM Trans. Graph..

[80]  Steven M. Seitz,et al.  Example-based photometric stereo: shape reconstruction with general, varying BRDFs , 2005, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[81]  N. Rivière,et al.  Multispectral polarized BRDF: design of a highly resolved reflectometer and development of a data inversion method , 2012 .

[82]  Carlos Ureña,et al.  An Overview of BRDF Models , 2012 .

[83]  James T. Kajiya,et al.  Rendering fur with three dimensional textures , 1989, SIGGRAPH.

[84]  James F. Blinn,et al.  Models of light reflection for computer synthesized pictures , 1977, SIGGRAPH.

[85]  James Arvo,et al.  Applications of irradiance tensors to the simulation of non-Lambertian phenomena , 1995, SIGGRAPH.

[86]  Brian E. Smits,et al.  Practical physically-based shading in film and game production , 2012, SIGGRAPH '12.

[87]  Hans-Peter Seidel,et al.  Mesostructure from Specularity , 2006, 2006 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'06).

[88]  Wojciech Matusik,et al.  A data-driven reflectance model , 2003, ACM Trans. Graph..

[89]  Anders Ynnerman,et al.  BRDF models for accurate and efficient rendering of glossy surfaces , 2012, TOGS.

[90]  K. Torrance,et al.  Theory for off-specular reflection from roughened surfaces , 1967 .

[91]  Pieter Peers,et al.  Rapid Acquisition of Specular and Diffuse Normal Maps from Polarized Spherical Gradient Illumination , 2007 .

[92]  Jason Lawrence,et al.  A photometric approach for estimating normals and tangents , 2008, ACM Trans. Graph..

[93]  Pieter Peers,et al.  Circularly polarized spherical illumination reflectometry , 2010, ACM Trans. Graph..

[94]  Robert R. Lewis,et al.  Making Shaders More Physically Plausible , 1994, Comput. Graph. Forum.

[95]  Matthew O'Toole,et al.  BRDF Acquisition with Basis Illumination , 2007, 2007 IEEE 11th International Conference on Computer Vision.

[96]  Murat Kurt,et al.  A General BRDF Representation Based on Tensor Decomposition , 2011, Comput. Graph. Forum.

[97]  Robert J. Woodham,et al.  Photometric method for determining surface orientation from multiple images , 1980 .

[98]  Donald P. Greenberg,et al.  A comprehensive physical model for light reflection , 1991, SIGGRAPH.

[99]  E. L. Church,et al.  The Prediction Of BRDFs From Surface Profile Measurements , 1990, Optics & Photonics.

[100]  Leonidas J. Guibas,et al.  Robust Monte Carlo methods for light transport simulation , 1997 .

[101]  Robert L. Cook,et al.  A Reflectance Model for Computer Graphics , 1987, TOGS.

[102]  Greg Ward,et al.  Picture Perfect RGB Rendering Using Spectral Prefiltering and Sharp Color Primaries , 2002, Rendering Techniques.

[103]  James Arvo,et al.  Barycentric parameterizations for isotropic BRDFs , 2005, IEEE Transactions on Visualization and Computer Graphics.

[104]  Karol Myszkowski,et al.  Rendering Pearlescent Appearance Based On Paint‐Composition Modelling , 2001, Comput. Graph. Forum.

[105]  Stephen H. Westin,et al.  Automated three-axis gonioreflectometer for computer graphics applications , 2006 .

[106]  M. Haindl,et al.  Spatially Varying Bidirectional Reflectance Distribution Functions , 2013 .

[107]  Frédo Durand,et al.  Experimental analysis of BRDF models , 2005, EGSR '05.

[108]  E. Heitz Understanding the Masking-Shadowing Function in Microfacet-Based BRDFs , 2014 .

[109]  Tim Weyrich,et al.  Principles of appearance acquisition and representation , 2007, SIGGRAPH '08.

[110]  Ko Nishino,et al.  Directional statistics-based reflectance model for isotropic bidirectional reflectance distribution functions. , 2011, Journal of the Optical Society of America. A, Optics, image science, and vision.

[111]  Murat Kurt,et al.  Linear approximation of Bidirectional Reflectance Distribution Functions , 2008, Comput. Graph..

[112]  Pascal Barla,et al.  ALTA: A BRDF Analysis Library , 2014, Material Appearance Modeling.

[113]  R. Fedkiw,et al.  Online Submission ID: papers 0432 Volume Conserving Finite Element Simulations of Deformable Models , 2022 .

[114]  Eric P. Lafortune,et al.  Using the modified Phong reflectance model for physically based rendering , 1994 .

[115]  Steve Marschner,et al.  Predicting Appearance from Measured Microgeometry of Metal Surfaces , 2015, ACM Trans. Graph..

[116]  Yasushi Yagi,et al.  Multiplexed Illumination for Measuring BRDF Using an Ellipsoidal Mirror and a Projector , 2007, ACCV.

[117]  David Geisler-Moroder,et al.  A New Ward BRDF Model with Bounded Albedo , 2010, Comput. Graph. Forum.

[118]  Jirí Filip,et al.  Adaptive highlights stencils for modeling of multi-axial BRDF anisotropy , 2015, The Visual Computer.

[119]  B. Smith,et al.  Geometrical shadowing of a random rough surface , 1967 .

[120]  Tim Weyrich,et al.  A layered, heterogeneous reflectance model for acquiring and rendering human skin , 2008, SIGGRAPH Asia '08.

[121]  Eugene d'Eon,et al.  A quantized-diffusion model for rendering translucent materials , 2011, ACM Trans. Graph..

[122]  Thomas Malzbender,et al.  Polynomial texture maps , 2001, SIGGRAPH.

[123]  Sato Imari,et al.  Inverse Rendering for Computer Graphics , 2010 .

[124]  Baining Guo,et al.  Material Appearance Modeling: A Data-Coherent Approach , 2013, Springer Berlin Heidelberg.

[125]  Carles Bosch,et al.  BRDFLab: A general system for designing BRDFs , 2009, CEIG.

[126]  Donald P. Greenberg,et al.  Modeling the interaction of light between diffuse surfaces , 1984, SIGGRAPH.

[127]  Ravi Ramamoorthi,et al.  Reflectance sharing: predicting appearance from a sparse set of images of a known shape , 2006, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[128]  Todd E. Zickler,et al.  Passive Reflectometry , 2008, ECCV.

[129]  J. Cohen,et al.  Color Science: Concepts and Methods, Quantitative Data and Formulas , 1968 .

[130]  Nelson L. Max,et al.  Bidirectional reflection functions from surface bump maps , 1987, SIGGRAPH.

[131]  Jack J. Hsia,et al.  Bidirectional Reflectometry. Part I. , 1976, Journal of research of the National Bureau of Standards. Section A, Physics and chemistry.

[132]  Gregory J. Ward,et al.  Measuring and modeling anisotropic reflection , 1992, SIGGRAPH.

[133]  M. Ashikhmin,et al.  Distribution-based BRDFs , 2007 .

[134]  Steve Marschner,et al.  Matching Real Fabrics with Micro-Appearance Models , 2015, ACM Trans. Graph..

[135]  Wojciech Matusik,et al.  Efficient Isotropic BRDF Measurement , 2003, Rendering Techniques.

[136]  Michael D. McCool,et al.  Homomorphic factorization of BRDFs for high-performance rendering , 2001, SIGGRAPH.

[137]  Nicolas Bonneel,et al.  Reducing Anisotropic BSDF Measurement to Common Practice , 2014, Material Appearance Modeling.

[138]  Ralf Sarlette,et al.  Acquisition, Synthesis, and Rendering of Bidirectional Texture Functions , 2005, Comput. Graph. Forum.

[139]  Bui Tuong Phong Illumination for computer generated pictures , 1975, Commun. ACM.

[140]  Shree K. Nayar,et al.  Generalization of Lambert's reflectance model , 1994, SIGGRAPH.

[141]  Moshe Ben-Ezra,et al.  An LED-only BRDF measurement device , 2008, 2008 IEEE Conference on Computer Vision and Pattern Recognition.

[142]  K. Bala,et al.  A radiative transfer framework for rendering materials with anisotropic structure , 2010, SIGGRAPH 2010.

[143]  Derek Bradley,et al.  Recent Advances in Facial Appearance Capture , 2015, Comput. Graph. Forum.

[144]  Steve Marschner,et al.  Microfacet Models for Refraction through Rough Surfaces , 2007, Rendering Techniques.

[145]  Marc Stamminger,et al.  Translucent Shadow Maps , 2003, Rendering Techniques.

[146]  Min H. Kim,et al.  Characterization for High Dynamic Range Imaging , 2008, Comput. Graph. Forum.

[147]  Paul Graham,et al.  Acquiring reflectance and shape from continuous spherical harmonic illumination , 2013, ACM Trans. Graph..

[148]  Gunther Wyszecki,et al.  Color Science: Concepts and Methods, Quantitative Data and Formulae, 2nd Edition , 2000 .

[149]  Steve Marschner,et al.  Image-Based BRDF Measurement Including Human Skin , 1999, Rendering Techniques.

[150]  Pieter Peers,et al.  Estimating Surface Normals from Spherical Stokes Reflectance Fields , 2012, ECCV Workshops.

[151]  Pieter Peers,et al.  genBRDF: discovering new analytic BRDFs with genetic programming , 2014, ACM Trans. Graph..

[152]  Stephen H. Westin,et al.  A Comparison of Four BRDF Models , 2005 .

[153]  Pieter Peers,et al.  Estimating Specular Roughness and Anisotropy from Second Order Spherical Gradient Illumination , 2009, Comput. Graph. Forum.

[154]  Alexander Wilkie,et al.  Arbitrarily layered micro-facet surfaces , 2007, GRAPHITE '07.

[155]  Nicolas Holzschuch,et al.  Accurate fitting of measured reflectances using a Shifted Gamma micro‐facet distribution , 2012, Comput. Graph. Forum.

[156]  Pierre Poulin,et al.  Rational BRDF , 2012, IEEE Transactions on Visualization and Computer Graphics.