The absolute radiometric calibration of remote sensing sensors is crucial to the accurate retrieval of biogeophysical parameters through remote sensing. The radiometric calibration uncertainty is the index that describes the reliability of a calibration result and is usually empirically determined by assuming that all of the factors involved are independent of each other. Through a field campaign carried out in Inner Mongolia, China, which aimed to accurately calibrate remote sensing sensors, we developed a Monte Carlo method that statistically evaluates the radiometric calibration uncertainty. From Monte Carlo simulations, it was revealed that the overall uncertainty is much smaller than the root sum of squares of each factor, suggesting t...
In Brazil, the increase of the application of quantitative approaches in the natural resources studi...
As part of the EnMAP preparation activities this study aims at estimating the uncertainty in the EnM...
A challenge for the scientific community in respect to the ever-increasing number of Earth observing...
Earth Observation (EO) via remote sensing is rapidly growing in terms of satellite missions, complex...
The in-flight absolute radiometric calibration of the Thematic Mapper (TM) is being conducted using ...
A new framework that enables evaluation of the in situ ocean color radiometry measurement uncertaint...
Earth Observation via satellite has been successfully used for several decades in many applications....
International audienceA new framework that enables evaluation of the in situ ocean color radiometry ...
First attempt at quantifying uncertainties in ocean remote sensing reflectance satellite measurement...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
The importance of accurate absolute radiometric calibration is discussed by reference to the needs o...
All sensors systems designed to acquire quantitative data undergo radiometric calibration. The types...
As part of the Sentinel-2 mission, a Radiometric Uncertainty Tool (RUT) has been recently released t...
During the past forty years, since the first book with a title mentioning quantitative and remote se...
The objective of the present work is the application of the Monte Carlo method (GUMS1) for evaluatin...
In Brazil, the increase of the application of quantitative approaches in the natural resources studi...
As part of the EnMAP preparation activities this study aims at estimating the uncertainty in the EnM...
A challenge for the scientific community in respect to the ever-increasing number of Earth observing...
Earth Observation (EO) via remote sensing is rapidly growing in terms of satellite missions, complex...
The in-flight absolute radiometric calibration of the Thematic Mapper (TM) is being conducted using ...
A new framework that enables evaluation of the in situ ocean color radiometry measurement uncertaint...
Earth Observation via satellite has been successfully used for several decades in many applications....
International audienceA new framework that enables evaluation of the in situ ocean color radiometry ...
First attempt at quantifying uncertainties in ocean remote sensing reflectance satellite measurement...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
The importance of accurate absolute radiometric calibration is discussed by reference to the needs o...
All sensors systems designed to acquire quantitative data undergo radiometric calibration. The types...
As part of the Sentinel-2 mission, a Radiometric Uncertainty Tool (RUT) has been recently released t...
During the past forty years, since the first book with a title mentioning quantitative and remote se...
The objective of the present work is the application of the Monte Carlo method (GUMS1) for evaluatin...
In Brazil, the increase of the application of quantitative approaches in the natural resources studi...
As part of the EnMAP preparation activities this study aims at estimating the uncertainty in the EnM...
A challenge for the scientific community in respect to the ever-increasing number of Earth observing...