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Journal of Coatings Technology and Research

Erschienen in:

25.01.2016

Quantification and prediction of visually perceived specular gloss at three illumination/viewing geometries

Erschienen in: Journal of Coatings Technology and Research | Ausgabe 2/2016

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Abstract

In the present study, attempts were made to clarify the existence of a correlation between visually perceived and instrumentally measured specular gloss of a series of achromatic samples. To this end, seven achromatic physical scales of specular gloss each consisting of 10 or 11 samples were prepared using lithographically printed black, white, and five in between gray papers. The samples were visually assessed and subsequently quantified in terms of a visually uniform color constant lightness scale, by a panel of 14 observers in an especially designed unidirectional light compartment at three illumination/observation geometries, namely 20°/20°, 60°/60°, and 85°/85°. Four statistical parameters were utilized to determine the correlation between visually perceived and instrumentally measured specular gloss. The results show that the instrumental 60°/60° geometry is capable of efficiently quantifying the equivalent specular gloss as perceived by a human observer. Surprisingly, it was also possible to accurately predict the visually quantified specular gloss both at the 20° and the 85° geometries by the aid of applying special linear relationships derived from the instrumentally measured specular gloss of the 60° geometry.

Vorheriger Artikel Effect of binder on performance of intumescent coatings

Nächster Artikel Functionalization of cotton fabric with nanosized TiO2 coating for self-cleaning and antibacterial property enhancement

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ASTM Standard D 523-89, “Standard Test Method for Specular Gloss.” In: Annual Book of ASTM Standards, Vol. 06.01. ASTM International, West Conshohocken, PA, 1999

CIE 175:2006 Report, “A Framework for the Measurement of Visual Appearance.” Central Bureau of the International Commission on Illumination, CIE, Paris, 2006

Nadal, ME, Thompson, EA, “NIST Reference Goniophotometer for Specular Gloss Measurements.” J. Coat. Technol., 73 73–80 (2001)CrossRef

ASTM Standard E284-05a, “Standard Terminology of Appearance.” In: Annual Book of ASTM Standards, Vol. 06.01. ASTM International, West Conshohocken, PA, 2006

Eugene, C, “Measurement of Total Visual Appearance: A CIE Challenge of Soft Metrology.” Presented at the 12th IMEKO TC1 & TC7 Joint Symposium on Man, Science and Measurement, Annecy, France, September 2008

Simonot, L, Hebert, M, Dupraz, D, “Goniocolorimetry: From Measurement to Representation in the CIELAB Color Space.” Color Res. Appl., 36 169–178 (2011)CrossRef

Pointer, M, “Measuring Visual Appearance—A Framework for the Future.” NPL Report COAM 19, National Physical Laboratory, Middlesex, 2003

Ged, G, Obein, G, Silvestri, Z, Rohellec, JL, Viénot, F, “Recognizing Real Materials from Their Glossy Appearance.” J. Vision, 10 1–17 (2010)CrossRef

Hunter, RS, Harold, RW, The Measurement of Appearance. Wiley, New York, 1987

10.

Billmeyer, FW, O’Donnell, FXD, “Visual Gloss Scaling and Multidimensional Scaling Analysis of Painted Specimens.” Color Res. Appl., 12 315–326 (1987)CrossRef

11.

Harrison, VGW, Poulter, SRC, “Gloss Measurement of Papers—The Effect of Luminance Factor.” Br. J. Appl. Phys., 2 92–97 (1951)CrossRef

12.

Obein, G, Knoblauch, K, Chrisment, A, Viénot, F, “Perceptual Scaling of the Gloss of a One-Dimensional Series of Painted Black Samples.” Perception ECVP Abstract, 31 63 (2002)

13.

Obein, G, Knoblauch, K, Viénot, F, “Difference Scaling of Gloss: Nonlinearity, Binocularity, and Constancy.” J. Vision, 4 711–720 (2004)CrossRef

14.

Obein, G, Pichereau, T, Harrar, M, Monot, A, Knoblauch, K, Viénot, F, “Does Binocular Vision Contribute to Gloss Perception.” J. Vision, 4 (11) 73 (2004)CrossRef

15.

Ji, W, Pointer, MR, Luo, MR, Dakin, J, “Gloss as an Aspect of the Measurement of Appearance.” J. Opt. Soc. Am. A, 23 22–33 (2006)CrossRef

16.

Leloup, FB, Pointer, MR, Dutré, P, Hanselaer, P, “Geometry of Illumination, Luminance Contrast, and Gloss Perception.” J. Opt. Soc. Am. A, 27 2046–2054 (2010)CrossRef

17.

Leloup, FB, Pointer, MR, Dutré, P, Hanselaer, P, “Luminance-Based Specular Gloss Characterization.” J. Opt. Soc. Am. A, 28 1322–1330 (2011)CrossRef

18.

Ferwerda, JA, Pellacini, F, Greenberg, DP, “A Psychophysically-Based Model of Surface Gloss Perception.” Proc. SPIE, 4299 291–301 (2001)CrossRef

19.

Obein, G, Vienot, F, Leroux, TR, “Bidirectional Reflectance Distribution Factor and Gloss Scales.” Proc. SPIE, 4299 279–290 (2001)CrossRef

20.

Leloup, FB, Pointer, MR, Dutré, P, Hanselaer, P, “Overall Gloss Evaluation in the Presence of Multiple Cues to Surface Glossiness.” J. Opt. Soc. Am. A, 29 1105–1114 (2012)CrossRef

21.

Leloup, FB, Obein, G, Pointer, MR, Hanselaer, P, “Toward the Soft Metrology of Surface Gloss: A Review.” Color Res. Appl., 39 559–570 (2014)CrossRef

22.

Westlund, HB, Meyer, GW, Hunt, FY, “The Role of Rendering in the Competence Project in Measurement Science for Optical Reflection and Scattering.” J. Res. Natl. Inst. Stand. Technol., 107 247–259 (2002)CrossRef

23.

Arney, JS, Ye, L, Banach, S, “Interpretation of Gloss Meter Measurements.” J. Imaging Sci. Technol., 50 567–571 (2006)CrossRef

24.

Seve, R, “Problems Connected with the Concept of Gloss.” Color Res. Appl., 18 241–252 (1993)CrossRef

25.

Nadal, ME, Thompson, EA, “New Primary Standard for Specular Gloss Measurements.” J. Coat. Technol., 72 61–66 (2000)CrossRef

26.

Ameri, F, Khalili, N, “Effect of Illumination/Observation Geometries on Visual Assessment of Certain Geometric Attributes of Automotive Paints.” J. Color Sci. Technol., 7 323–330 (2014), In Persian

27.

Mirjalili, F, Moradian, S, Ameri, F, “A New Approach to Investigate Relationships Between Certain Instrumentally Measured Appearance Parameters and Their Visually Perceived Equivalents in the Automotive Industry.” J. Coat. Technol. Res., 11 (3) 341–350 (2014)CrossRef

28.

Mirjalili, F, Moradian, S, Ameri, F, “Derivation of an Instrumentally Based Geometric Appearance Index for the Automotive Industry.” J. Coat. Technol. Res., 11 (6) 853–864 (2014)CrossRef

29.

Kirchner, E, Dekker, N, “Performance Measures of Color-Difference Equations: Correlation Coefficient Versus Standardized Residual Sum of Squares.” J. Opt. Soc. Am. A, 28 841–1848 (2011)CrossRef

30.

García, PA, Huertas, R, Melgosa, M, Cui, G, “Measurement of the Relationship Between Perceived and Computed Color Differences.” J. Opt. Soc. Am. A, 24 1823–1829 (2007)CrossRef

31.

Huang, M, Cui, G, Melgosa, M, Sánchez-Marañón, M, Li, C, Luo, MR, Liu, H, “Power Functions Improving the Performance of Color-Difference Formulas.” Opt. Express, 23 597–610 (2015)CrossRef

32.

Huang, Z, Xu, H, Luo, MR, “Camera-Based Model to Predict the Total Difference Between Effect Coatings Under Directional Illumination.” Chin. Opt. Lett., 9 093301 (2011)CrossRef

33.

Huang, Z, Xu, H, Luo, MR, Cui, G, Feng, H, “Assessing Total Differences for Effective Samples Having Variations in Color, Coarseness, and Glint.” Chin. Opt. Lett., 8 717–720 (2010)CrossRef

34.

Torrance, KE, Sparrow, EM, “Theory for Off-Specular Reflection from Roughened Surfaces.” J. Opt. Soc. Am. A, 57 1105–1112 (1967)CrossRef

Titel: Quantification and prediction of visually perceived specular gloss at three illumination/viewing geometries
Publikationsdatum: 25.01.2016
Erschienen in: Journal of Coatings Technology and Research / Ausgabe 2/2016
Print ISSN: 1547-0091
Elektronische ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-015-9756-2

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