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Volume: 33 | Article ID: art00004
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Objective evaluation of relighting models on translucent materials from multispectral RTI images
Vlado Kitanovski
Jon Yngve Hardeberg
  DOI :  10.2352/ISSN.2470-1173.2021.5.MAAP-133  Published OnlineJanuary 2021
Abstract

In this paper, we evaluate the quality of reconstruction i.e. relighting from images obtained by a newly developed multispectral reflectance transformation imaging (MS-RTI) system. The captured MS-RTI images are of objects with different translucency and color. We use the most common methods for relighting the objects: polynomial texture mapping (PTM) and hemispherical harmonics (HSH), as well as the recent discrete model decomposition (DMD). The results show that all three models can reconstruct the images of translucent materials, with the reconstruction error varying with translucency but still in the range of what has been reported for other non-translucent materials. DMD relighted images are marginally better for the most transparent objects, while HSH- and PTM- relighted images appear to be better for the opaquer objects. The estimation of the surface normals of highly translucent objects using photometric stereo is not very accurate. Utilizing the peak of the fitted angular reflectance field, the relighting models, especially PTM, can provide more accurate estimation of the surface normals.

Journal Title : Electronic Imaging
Publisher Name : Society for Imaging Science and Technology
Publisher Location : IS&T 7003 Kilworth Lane, Springfield, VA 22151 USA
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 DOI 10.2352/ISSN.2470-1173.2021.5.MAAP-133
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Vlado Kitanovski, Jon Yngve Hardeberg, "Objective evaluation of relighting models on translucent materials from multispectral RTI imagesin Proc. IS&T Int’l. Symp. on Electronic Imaging: Material Appearance,  2021,  pp 133-1 - 133-8,  https://doi.org/10.2352/ISSN.2470-1173.2021.5.MAAP-133

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Copyright © Society for Imaging Science and Technology 2021
72010604
Electronic Imaging
2470-1173
Society for Imaging Science and Technology
IS&T 7003 Kilworth Lane, Springfield, VA 22151 USA
10.2352/ISSN.2470-1173.2021.5.MAAP-133
2470-1173(20210118)2021:5L.1331;1-
ei_24701173_v2021n5_Input/s4.xml
/ist/ei/2021/00002021/00000005/art00004
Articles
Objective evaluation of relighting models on translucent materials from multispectral RTI images
KitanovskiVlado
HardebergJon Yngve
18012021
2021
5
133-1
133-8
2021
In this paper, we evaluate the quality of reconstruction i.e. relighting from images obtained by a newly developed multispectral reflectance transformation imaging (MS-RTI) system. The captured MS-RTI images are of objects with different translucency and color. We use the most common methods for relighting the objects: polynomial texture mapping (PTM) and hemispherical harmonics (HSH), as well as the recent discrete model decomposition (DMD). The results show that all three models can reconstruct the images of translucent materials, with the reconstruction error varying with translucency but still in the range of what has been reported for other non-translucent materials. DMD relighted images are marginally better for the most transparent objects, while HSH- and PTM- relighted images appear to be better for the opaquer objects. The estimation of the surface normals of highly translucent objects using photometric stereo is not very accurate. Utilizing the peak of the fitted angular reflectance field, the relighting models, especially PTM, can provide more accurate estimation of the surface normals.
RTITranslucentPTMHSHDMDMultispectral