Add to ORKGhyperspectral remote sensing, spectroscopy, absorption feature analysis, contextual analysis, mapping methods. Spectral reflectance in the visible and near-infrared offers a rapid and inexpensive technique for determining the mineralogy of samples and obtaining information on chemical composition. Absorption-band parameters such as the position, depth, width, and asymmetry of the feature have been used to quantitatively estimate composition of samples from hyperspectral field and laboratory reflectance data. The parameters have also been used to develop mapping methods for the analysis of hyperspectral image data. This has resulted in techniques providing surface mineralogical information (e.g., classification) using absorption-band depth a...
Geologists have been instrumental in shaping Earth observation satellite missions; likewise, geology...
Hyperspectral imagery of a vertical mine face acquired from a field-based platform is used to evalua...
International audienceMineral mapping and soil analysis, from airborne or satellite sensors, are two...
The final product of a geologic remote sensing data analysis using multi spectral and hyperspectral ...
A new method is presented for the exploratory analysis of hyperspectral OMEGA imagery of Mars. It in...
The Wavelength Mapper is an algorithm that searches for the deepest absorption feature in each pixel...
Merging hyperspectral data from optical and thermal ranges allows a wider variety of minerals to be ...
International audienceReflectance spectroscopy is a widely used technique for mineral identification...
Reflectance and emittance spectroscopy in the near-infra red and short-wave infra red offers a rapid...
The development of advanced laboratory-based imaging hyperspectral sensors, such as SisuCHEMA, has c...
Laboratory reflectance ( 0.4- 2.5 mum) spectra of 41 samples of metamorphic rocks from the Precambri...
Classification by diagnosing all absorption features (CDAF) for the most abundant minerals in airbor...
We use a classic locale for geology education in the White Mountains, CA, to demonstrate a novel app...
Hyperspectral images possess properties such as rich spectral information, narrow bandwidth, and lar...
Geologists have been instrumental in shaping Earth observation satellite missions; likewise, geology...
Hyperspectral imagery of a vertical mine face acquired from a field-based platform is used to evalua...
International audienceMineral mapping and soil analysis, from airborne or satellite sensors, are two...
The final product of a geologic remote sensing data analysis using multi spectral and hyperspectral ...
A new method is presented for the exploratory analysis of hyperspectral OMEGA imagery of Mars. It in...
The Wavelength Mapper is an algorithm that searches for the deepest absorption feature in each pixel...
Merging hyperspectral data from optical and thermal ranges allows a wider variety of minerals to be ...
International audienceReflectance spectroscopy is a widely used technique for mineral identification...
Reflectance and emittance spectroscopy in the near-infra red and short-wave infra red offers a rapid...
The development of advanced laboratory-based imaging hyperspectral sensors, such as SisuCHEMA, has c...
Laboratory reflectance ( 0.4- 2.5 mum) spectra of 41 samples of metamorphic rocks from the Precambri...
Classification by diagnosing all absorption features (CDAF) for the most abundant minerals in airbor...
We use a classic locale for geology education in the White Mountains, CA, to demonstrate a novel app...
Hyperspectral images possess properties such as rich spectral information, narrow bandwidth, and lar...
Geologists have been instrumental in shaping Earth observation satellite missions; likewise, geology...
Hyperspectral imagery of a vertical mine face acquired from a field-based platform is used to evalua...
International audienceMineral mapping and soil analysis, from airborne or satellite sensors, are two...