@InProceedings{RubimCoelBarrCruz:2015:CoAtRe,
author = "Rubim, Igor Brum and Coelho, Raphael Corr{\^e}a de Souza and
Barros, Rafael Silva de and Cruz, Carla Bernadete Madureira",
title = "Corre{\c{c}}{\~a}o atmosf{\'e}rica de recorte de imagem do
RapidEye com diferentes modelos atmosf{\'e}ricos e estimativas de
visibilidades no 6S e Atcor",
booktitle = "Anais...",
year = "2015",
editor = "Gherardi, Douglas Francisco Marcolino and Arag{\~a}o, Luiz
Eduardo Oliveira e Cruz de",
pages = "1447--1454",
organization = "Simp{\'o}sio Brasileiro de Sensoriamento Remoto, 17. (SBSR)",
publisher = "Instituto Nacional de Pesquisas Espaciais (INPE)",
address = "S{\~a}o Jos{\'e} dos Campos",
abstract = "Orbital images pre processing is essential for the thematic
mapping. The atmospheric correction is a primordial step for file
preparing before images processing. There are two ways to do
atmospheric correction: Dark Object Subtration (DOS) and Radiative
Transfer. In the second way, two methods are more frequently used:
Moderate Spectral Resolution Atmospheric Transmitance Algorithm
(Modtran) and the Simulation of the Satellite Signal in the Solar
Spectrum (5S). These mentioned models are employed in the
relatings softwares: Atcor and 6S (Second Simulation of the
Satellite Signal in the Solar Spectrum). This paper present
different atmospheric corrections of an image cut of RapidEye. Two
patterns Atmospheric Model and Visibility were modified to
evaluate the best adjust of atmospheric correction executed in 6S.
An atmospheric correction has been done to confront with those
made with 6S. The spectral behavior of targets vegetation, water
and soil were analysed to find the correction''s quality,
comparing with the information finded in the literature. The
patterns collected were squares of 15m. These patterns present a
mean of 9 pixels with the Surface Reflectance. The targets have 27
pixels 3 patterns per target to evaluate the atmospheric
correction for each adjust. The Visibilities chosen were 20, 25,
30, 35 and 40km. The Atmospheric Models chosen were Midlatitudes
Winter and Midlatitudes Summer. The atmospheric correction done at
Atcor employed 30km for Visibility and Midlatitude Summer for
Atmospheric Correction.",
conference-location = "Jo{\~a}o Pessoa",
conference-year = "25-29 abr. 2015",
isbn = "978-85-17-0076-8",
label = "270",
language = "pt",
organisation = "Instituto Nacional de Pesquisas Espaciais (INPE)",
ibi = "8JMKD3MGP6W34M/3JM485S",
url = "http://urlib.net/ibi/8JMKD3MGP6W34M/3JM485S",
targetfile = "p0270.pdf",
type = "Processamento de imagens",
urlaccessdate = "23 maio 2024"
}