A study on numerical integration methods for rendering atmospheric scattering phenomenon
A qualitative comparison of three, popular and most widely known numerical integration methods in terms of atmospheric single scattering calculations is presented. A comparison of Midpoint, Trapezoidal and Simpson’s Rules taking into account quality of a clear sky generated images is performed. Meth...
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| Format: | Article |
| Language: | English |
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De Gruyter
2019-05-01
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| Series: | Open Physics |
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| Online Access: | https://doi.org/10.1515/phys-2019-0025 |
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doaj-a11f3fbd845b491e9bd5fda09e9bcead2021-09-05T13:59:36ZengDe GruyterOpen Physics2391-54712019-05-0117124124910.1515/phys-2019-0025phys-2019-0025A study on numerical integration methods for rendering atmospheric scattering phenomenonGałaj Tomasz0Wojciechowski Adam1Institute of Information Technology, Lodz University of Technology, Łódź, PolandInstitute of Information Technology, Lodz University of Technology, Łódź, PolandA qualitative comparison of three, popular and most widely known numerical integration methods in terms of atmospheric single scattering calculations is presented. A comparison of Midpoint, Trapezoidal and Simpson’s Rules taking into account quality of a clear sky generated images is performed. Methods that compute the atmospheric scattering integrals use Trapezoidal Rule. Authors try to determine which numerical integration method is the best for determining the colors of the sky and check if Trapezoidal Rule is in fact the best choice. The research does not only conduct experiments with Bruneton’s framework but also checks which of the selected numerical integration methods is the most appropriate and gives the lowest error in terms of atmospheric scattering phenomenon.https://doi.org/10.1515/phys-2019-0025atmospheric single scatteringnumerical integrationintegralsnonlinear light scatteringgpu rendering02.30.rz42.68.-w |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Gałaj Tomasz Wojciechowski Adam |
| spellingShingle |
Gałaj Tomasz Wojciechowski Adam A study on numerical integration methods for rendering atmospheric scattering phenomenon Open Physics atmospheric single scattering numerical integration integrals nonlinear light scattering gpu rendering 02.30.rz 42.68.-w |
| author_facet |
Gałaj Tomasz Wojciechowski Adam |
| author_sort |
Gałaj Tomasz |
| title |
A study on numerical integration methods for rendering atmospheric scattering phenomenon |
| title_short |
A study on numerical integration methods for rendering atmospheric scattering phenomenon |
| title_full |
A study on numerical integration methods for rendering atmospheric scattering phenomenon |
| title_fullStr |
A study on numerical integration methods for rendering atmospheric scattering phenomenon |
| title_full_unstemmed |
A study on numerical integration methods for rendering atmospheric scattering phenomenon |
| title_sort |
study on numerical integration methods for rendering atmospheric scattering phenomenon |
| publisher |
De Gruyter |
| series |
Open Physics |
| issn |
2391-5471 |
| publishDate |
2019-05-01 |
| description |
A qualitative comparison of three, popular and most widely known numerical integration methods in terms of atmospheric single scattering calculations is presented. A comparison of Midpoint, Trapezoidal and Simpson’s Rules taking into account quality of a clear sky generated images is performed. Methods that compute the atmospheric scattering integrals use Trapezoidal Rule. Authors try to determine which numerical integration method is the best for determining the colors of the sky and check if Trapezoidal Rule is in fact the best choice. The research does not only conduct experiments with Bruneton’s framework but also checks which of the selected numerical integration methods is the most appropriate and gives the lowest error in terms of atmospheric scattering phenomenon. |
| topic |
atmospheric single scattering numerical integration integrals nonlinear light scattering gpu rendering 02.30.rz 42.68.-w |
| url |
https://doi.org/10.1515/phys-2019-0025 |
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