Physically Based Simulation and Rendering of Urban Thermography
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Date
2020Author
Aguerre, José Pedro
García‐Nevado, Elena
Acuña Paz y Miño, Jairo
Fernández, Eduardo
Beckers, Benoit
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Urban thermography is a non‐invasive measurement technique commonly used for building diagnosis and energy efficiency evaluation. The physical interpretation of thermal images is a challenging task because they do not necessarily depict the real temperature of the surfaces, but one estimated from the measured incoming radiation. In this sense, the computational rendering of a thermal image can be useful to understand the results captured in a measurement campaign. The computer graphics community has proposed techniques for light rendering that are used for its thermal counterpart. In this work, a physically based simulation methodology based on a combination of the finite element method (FEM) and ray tracing is presented. The proposed methods were tested using a highly detailed urban geometry. Directional emissivity models, glossy reflectivity functions and importance sampling were used to render thermal images. The simulation results were compared with a set of measured thermograms, showing good agreement between them.
BibTeX
@article {10.1111:cgf.14044,
journal = {Computer Graphics Forum},
title = {{Physically Based Simulation and Rendering of Urban Thermography}},
author = {Aguerre, José Pedro and García‐Nevado, Elena and Acuña Paz y Miño, Jairo and Fernández, Eduardo and Beckers, Benoit},
year = {2020},
publisher = {© 2020 Eurographics ‐ The European Association for Computer Graphics and John Wiley & Sons Ltd},
ISSN = {1467-8659},
DOI = {10.1111/cgf.14044}
}
journal = {Computer Graphics Forum},
title = {{Physically Based Simulation and Rendering of Urban Thermography}},
author = {Aguerre, José Pedro and García‐Nevado, Elena and Acuña Paz y Miño, Jairo and Fernández, Eduardo and Beckers, Benoit},
year = {2020},
publisher = {© 2020 Eurographics ‐ The European Association for Computer Graphics and John Wiley & Sons Ltd},
ISSN = {1467-8659},
DOI = {10.1111/cgf.14044}
}