Add to ORKGAirborne Imaging Spectrometer (AIS) data collected from eight test areas in Austria were evaluated for their usefulness in forest damage assessment, geobotany, alpine vegetation mapping, and land use classification. Difficulties encountered in installing the SPAM spectral analysis software for use on the image display system and the necessity to adapt existing programs for this task impeded and delayed the analysis of the AIS data. Spectral reflectance curves obtained from a geobotanical test site show a marked increase in reflectance across most of the measured spectrum for metal stressed spruce trees compared with nonstressed spruce trees
The main tree species in Bavaria is spruce, which is being strongly affected by the climate change, ...
The current study assesses the potential of hyperspectral data for monitoring the initial stages of ...
Vegetation monitoring is an important tool in coastal zone management and environmental research. Co...
Today, airborne laser scanning (ALS) is the standard method for detailed topographic data acquisitio...
The primary goal of the project was to provide ground truth and manual interpretation of data from a...
Ecosystems, their services, structures and functions are affected by complex environmental processes...
In an attempt to demonstrate the utility of remote sensing systems to monitor sites of suspected aci...
The dataset contains 10 meter resolution reflectance data from boreal snow-covered landscape. The pu...
In order to produce accurate and meaningful results from airborne hyperspectral data analysis, it is...
Summaries of 17 papers presented at the workshop are published. After an overview of the imaging spe...
Spectra acquired by the Airborne Imaging Spectrometer (AIS) near Lafayette, IN, Ely, MN, and over th...
The Airborne Visible/Infrared imaging Spectrometer AVIS is a hyperspectral imager designed for envir...
The study focuses on spatio-temporal changes in the physiological status of the Norway spruce forest...
It was experimentally determined whether induced differences in forest canopy chemical composition c...
In July of 1997, various experimental flights were carried out with the Digital Airborne Imaging Spe...
The main tree species in Bavaria is spruce, which is being strongly affected by the climate change, ...
The current study assesses the potential of hyperspectral data for monitoring the initial stages of ...
Vegetation monitoring is an important tool in coastal zone management and environmental research. Co...
Today, airborne laser scanning (ALS) is the standard method for detailed topographic data acquisitio...
The primary goal of the project was to provide ground truth and manual interpretation of data from a...
Ecosystems, their services, structures and functions are affected by complex environmental processes...
In an attempt to demonstrate the utility of remote sensing systems to monitor sites of suspected aci...
The dataset contains 10 meter resolution reflectance data from boreal snow-covered landscape. The pu...
In order to produce accurate and meaningful results from airborne hyperspectral data analysis, it is...
Summaries of 17 papers presented at the workshop are published. After an overview of the imaging spe...
Spectra acquired by the Airborne Imaging Spectrometer (AIS) near Lafayette, IN, Ely, MN, and over th...
The Airborne Visible/Infrared imaging Spectrometer AVIS is a hyperspectral imager designed for envir...
The study focuses on spatio-temporal changes in the physiological status of the Norway spruce forest...
It was experimentally determined whether induced differences in forest canopy chemical composition c...
In July of 1997, various experimental flights were carried out with the Digital Airborne Imaging Spe...
The main tree species in Bavaria is spruce, which is being strongly affected by the climate change, ...
The current study assesses the potential of hyperspectral data for monitoring the initial stages of ...
Vegetation monitoring is an important tool in coastal zone management and environmental research. Co...