Monte Carlo Ray Tracing Based Sensitivity Analysis of the Atmospheric and the Ocean Parameters on Top of the Atmosphere Radiance
K. Arai. International Journal of Advanced Computer Science and Applications(IJACSA), (2012)
Abstract
Monte Carlo Ray Tracing: MCRT based sensitivity analysis of the geophysical parameters (the atmosphere and the ocean) on Top of the Atmosphere: TOA radiance in visible to near infrared wavelength regions is conducted. As the results, it is confirmed that the influence due to the atmosphere is greater than that of the ocean. Scattering and absorption due to aerosol particles and molecules in the atmosphere is major contribution followed by water vapor and ozone while scattering due to suspended solid is dominant contribution for the ocean parameters.
%0 Journal Article
%1 IJACSA.2012.031202
%A Arai, Kohei
%D 2012
%J International Journal of Advanced Computer Science and Applications(IJACSA)
%K (the Carlo Monte Ray Tracing; absorption; and atmosphere geophysical ocean). parameters radiative scattering the transfer;
%N 12
%T Monte Carlo Ray Tracing Based Sensitivity Analysis of the Atmospheric and the Ocean Parameters on Top of the Atmosphere Radiance
%U http://ijacsa.thesai.org/
%V 3
%X Monte Carlo Ray Tracing: MCRT based sensitivity analysis of the geophysical parameters (the atmosphere and the ocean) on Top of the Atmosphere: TOA radiance in visible to near infrared wavelength regions is conducted. As the results, it is confirmed that the influence due to the atmosphere is greater than that of the ocean. Scattering and absorption due to aerosol particles and molecules in the atmosphere is major contribution followed by water vapor and ozone while scattering due to suspended solid is dominant contribution for the ocean parameters.
@article{IJACSA.2012.031202,
abstract = {Monte Carlo Ray Tracing: MCRT based sensitivity analysis of the geophysical parameters (the atmosphere and the ocean) on Top of the Atmosphere: TOA radiance in visible to near infrared wavelength regions is conducted. As the results, it is confirmed that the influence due to the atmosphere is greater than that of the ocean. Scattering and absorption due to aerosol particles and molecules in the atmosphere is major contribution followed by water vapor and ozone while scattering due to suspended solid is dominant contribution for the ocean parameters. },
added-at = {2014-02-21T08:00:08.000+0100},
author = {Arai, Kohei},
biburl = {https://www.bibsonomy.org/bibtex/239819e90724ab44e39ac597a2b9d05fb/thesaiorg},
interhash = {7c50085b6caf702d3558eda6f6d9aa7f},
intrahash = {39819e90724ab44e39ac597a2b9d05fb},
journal = {International Journal of Advanced Computer Science and Applications(IJACSA)},
keywords = {(the Carlo Monte Ray Tracing; absorption; and atmosphere geophysical ocean). parameters radiative scattering the transfer;},
number = 12,
timestamp = {2014-02-21T08:00:08.000+0100},
title = {{Monte Carlo Ray Tracing Based Sensitivity Analysis of the Atmospheric and the Ocean Parameters on Top of the Atmosphere Radiance}},
url = {http://ijacsa.thesai.org/},
volume = 3,
year = 2012
}