Radiometry of wet surfaces :: when water matters /
As everyone can see every day, many objects or materials change their appearance when they get wet. Most of the time, the object becomes more translucent, its color darker and more chromatic. Beyond these general trends, is it possible to predict these changes in appearance for a given type of surfa...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
France :
EDP Sciences,
2023.
|
| Schriftenreihe: | Institut d'optique graduate school textbook series
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | As everyone can see every day, many objects or materials change their appearance when they get wet. Most of the time, the object becomes more translucent, its color darker and more chromatic. Beyond these general trends, is it possible to predict these changes in appearance for a given type of surface, and for a given humidity level? This is the question studied in this book, by drawing up a first inventory of available knowledge and ongoing research in multiple fields of application: in remote sensing, to correctly identify surfaces and estimate moisture content; in public lighting, to improve visibility on wet roads; in computer graphics, to render wet surfaces in a more realistic way... There is no universal model to describe the changes in spectral, angular and spatial responses of a wetted surface. The mechanisms of light scattering are not affected in the same way according to whether the material is porous, fibrous, powdery, and can be filled by water, or impermeable and can be covered by a water layer. In some applications where the infrared domain is of interest, the strong absorptance of water is also to be considered. This book was initiated by the GDR Appamat, a grouping of research focused on material appearance created in 2019 by the French national center for scientific research (CNRS). In 9 chapters, 26 specialists from various disciplines present different approaches that open perspectives on this field of research. Hopefully, students, engineers, and researchers will be inspired by these ideas to propose future developments. |
| Beschreibung: | 1 online resource : color illustrations |
| ISBN: | 9782759829316 2759829316 |
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| 505 | 0 | 0 | |t Frontmatter -- |t Preface -- |t Contents -- |t Chapter 1 Visual Effects of Surface Tension on the Appearance of Wet Surfaces -- |t Chapter 2 Reflectance of Wet Natural Soils in the Solar Domain: Contributions and Limitations of Physical Models -- |t Chapter 3 Can the Interpretation of Wet Sand Spectral Responses be Considered a Solved Problem? -- |t Chapter 4 Spectro-Photometric Signatures of Water in Planetary Regoliths -- |t Chapter 5 Measure of Optical Properties of Paper when Wetting Using Monte-Carlo Inversion -- |t Chapter 6 Wet Road Surfaces, a Challenge for Road Users... and for Measurement -- |t Chapter 7 A Virtual Goniophotometer for Modeling the Light Scattered by Rough Surfaces Covered with a Water Layer -- |t Chapter 8 Determination of Water Layer Thickness from Laser Halo -- |t Chapter 9 Impact of a Transparent Layer on the Color of a Non-Homogeneous Colored Support -- |t Contributors |
| 520 | |a As everyone can see every day, many objects or materials change their appearance when they get wet. Most of the time, the object becomes more translucent, its color darker and more chromatic. Beyond these general trends, is it possible to predict these changes in appearance for a given type of surface, and for a given humidity level? This is the question studied in this book, by drawing up a first inventory of available knowledge and ongoing research in multiple fields of application: in remote sensing, to correctly identify surfaces and estimate moisture content; in public lighting, to improve visibility on wet roads; in computer graphics, to render wet surfaces in a more realistic way... There is no universal model to describe the changes in spectral, angular and spatial responses of a wetted surface. The mechanisms of light scattering are not affected in the same way according to whether the material is porous, fibrous, powdery, and can be filled by water, or impermeable and can be covered by a water layer. In some applications where the infrared domain is of interest, the strong absorptance of water is also to be considered. This book was initiated by the GDR Appamat, a grouping of research focused on material appearance created in 2019 by the French national center for scientific research (CNRS). In 9 chapters, 26 specialists from various disciplines present different approaches that open perspectives on this field of research. Hopefully, students, engineers, and researchers will be inspired by these ideas to propose future developments. | ||
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| 650 | 7 | |a Radiation |x Measurement |2 fast | |
| 700 | 1 | |a Simonot, Lionel, |e editor. | |
| 830 | 0 | |a Institut d'optique graduate school textbook series | |
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| contents | Frontmatter -- Preface -- Contents -- Chapter 1 Visual Effects of Surface Tension on the Appearance of Wet Surfaces -- Chapter 2 Reflectance of Wet Natural Soils in the Solar Domain: Contributions and Limitations of Physical Models -- Chapter 3 Can the Interpretation of Wet Sand Spectral Responses be Considered a Solved Problem? -- Chapter 4 Spectro-Photometric Signatures of Water in Planetary Regoliths -- Chapter 5 Measure of Optical Properties of Paper when Wetting Using Monte-Carlo Inversion -- Chapter 6 Wet Road Surfaces, a Challenge for Road Users... and for Measurement -- Chapter 7 A Virtual Goniophotometer for Modeling the Light Scattered by Rough Surfaces Covered with a Water Layer -- Chapter 8 Determination of Water Layer Thickness from Laser Halo -- Chapter 9 Impact of a Transparent Layer on the Color of a Non-Homogeneous Colored Support -- Contributors |
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| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Electronic eBook |
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| illustrated | Illustrated |
| indexdate | 2024-10-25T15:51:24Z |
| institution | BVB |
| isbn | 9782759829316 2759829316 |
| language | English |
| oclc_num | 1371108342 |
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| series | Institut d'optique graduate school textbook series |
| series2 | Institut d'optique graduate school textbook series |
| spelling | Radiometry of wet surfaces : when water matters / directed by Lionel Simonot. France : EDP Sciences, 2023. 1 online resource : color illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Institut d'optique graduate school textbook series Online resource; title from PDF title page (Ebsco, viewed February 27, 2023).. Frontmatter -- Preface -- Contents -- Chapter 1 Visual Effects of Surface Tension on the Appearance of Wet Surfaces -- Chapter 2 Reflectance of Wet Natural Soils in the Solar Domain: Contributions and Limitations of Physical Models -- Chapter 3 Can the Interpretation of Wet Sand Spectral Responses be Considered a Solved Problem? -- Chapter 4 Spectro-Photometric Signatures of Water in Planetary Regoliths -- Chapter 5 Measure of Optical Properties of Paper when Wetting Using Monte-Carlo Inversion -- Chapter 6 Wet Road Surfaces, a Challenge for Road Users... and for Measurement -- Chapter 7 A Virtual Goniophotometer for Modeling the Light Scattered by Rough Surfaces Covered with a Water Layer -- Chapter 8 Determination of Water Layer Thickness from Laser Halo -- Chapter 9 Impact of a Transparent Layer on the Color of a Non-Homogeneous Colored Support -- Contributors As everyone can see every day, many objects or materials change their appearance when they get wet. Most of the time, the object becomes more translucent, its color darker and more chromatic. Beyond these general trends, is it possible to predict these changes in appearance for a given type of surface, and for a given humidity level? This is the question studied in this book, by drawing up a first inventory of available knowledge and ongoing research in multiple fields of application: in remote sensing, to correctly identify surfaces and estimate moisture content; in public lighting, to improve visibility on wet roads; in computer graphics, to render wet surfaces in a more realistic way... There is no universal model to describe the changes in spectral, angular and spatial responses of a wetted surface. The mechanisms of light scattering are not affected in the same way according to whether the material is porous, fibrous, powdery, and can be filled by water, or impermeable and can be covered by a water layer. In some applications where the infrared domain is of interest, the strong absorptance of water is also to be considered. This book was initiated by the GDR Appamat, a grouping of research focused on material appearance created in 2019 by the French national center for scientific research (CNRS). In 9 chapters, 26 specialists from various disciplines present different approaches that open perspectives on this field of research. Hopefully, students, engineers, and researchers will be inspired by these ideas to propose future developments. Radiation Measurement. http://id.loc.gov/authorities/subjects/sh85110345 Radiométrie. SCIENCE / Physics / Optics & Light. bisacsh Radiation Measurement fast Simonot, Lionel, editor. FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3555263 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3555263 Volltext |
| spellingShingle | Radiometry of wet surfaces : when water matters / Institut d'optique graduate school textbook series Frontmatter -- Preface -- Contents -- Chapter 1 Visual Effects of Surface Tension on the Appearance of Wet Surfaces -- Chapter 2 Reflectance of Wet Natural Soils in the Solar Domain: Contributions and Limitations of Physical Models -- Chapter 3 Can the Interpretation of Wet Sand Spectral Responses be Considered a Solved Problem? -- Chapter 4 Spectro-Photometric Signatures of Water in Planetary Regoliths -- Chapter 5 Measure of Optical Properties of Paper when Wetting Using Monte-Carlo Inversion -- Chapter 6 Wet Road Surfaces, a Challenge for Road Users... and for Measurement -- Chapter 7 A Virtual Goniophotometer for Modeling the Light Scattered by Rough Surfaces Covered with a Water Layer -- Chapter 8 Determination of Water Layer Thickness from Laser Halo -- Chapter 9 Impact of a Transparent Layer on the Color of a Non-Homogeneous Colored Support -- Contributors Radiation Measurement. http://id.loc.gov/authorities/subjects/sh85110345 Radiométrie. SCIENCE / Physics / Optics & Light. bisacsh Radiation Measurement fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85110345 |
| title | Radiometry of wet surfaces : when water matters / |
| title_alt | Frontmatter -- Preface -- Contents -- Chapter 1 Visual Effects of Surface Tension on the Appearance of Wet Surfaces -- Chapter 2 Reflectance of Wet Natural Soils in the Solar Domain: Contributions and Limitations of Physical Models -- Chapter 3 Can the Interpretation of Wet Sand Spectral Responses be Considered a Solved Problem? -- Chapter 4 Spectro-Photometric Signatures of Water in Planetary Regoliths -- Chapter 5 Measure of Optical Properties of Paper when Wetting Using Monte-Carlo Inversion -- Chapter 6 Wet Road Surfaces, a Challenge for Road Users... and for Measurement -- Chapter 7 A Virtual Goniophotometer for Modeling the Light Scattered by Rough Surfaces Covered with a Water Layer -- Chapter 8 Determination of Water Layer Thickness from Laser Halo -- Chapter 9 Impact of a Transparent Layer on the Color of a Non-Homogeneous Colored Support -- Contributors |
| title_auth | Radiometry of wet surfaces : when water matters / |
| title_exact_search | Radiometry of wet surfaces : when water matters / |
| title_full | Radiometry of wet surfaces : when water matters / directed by Lionel Simonot. |
| title_fullStr | Radiometry of wet surfaces : when water matters / directed by Lionel Simonot. |
| title_full_unstemmed | Radiometry of wet surfaces : when water matters / directed by Lionel Simonot. |
| title_short | Radiometry of wet surfaces : |
| title_sort | radiometry of wet surfaces when water matters |
| title_sub | when water matters / |
| topic | Radiation Measurement. http://id.loc.gov/authorities/subjects/sh85110345 Radiométrie. SCIENCE / Physics / Optics & Light. bisacsh Radiation Measurement fast |
| topic_facet | Radiation Measurement. Radiométrie. SCIENCE / Physics / Optics & Light. Radiation Measurement |
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| work_keys_str_mv | AT simonotlionel radiometryofwetsurfaceswhenwatermatters |