K. Stáenz scite author profile

Imaging spectroscopy, also known as hyperspectral remote sensing, is based on the characterization of Earth surface materials and processes through spectrally-resolved measurements of the light interacting with matter. The potential of imaging spectroscopy for Earth remote sensing has been demonstrated since the 1980s. However, most of the developments and applications in imaging spectroscopy have largely relied on airborne spectrometers, as the amount and quality of space-based imaging spectroscopy data remain relatively low to date. The upcoming Environmental Mapping and Analysis Program (EnMAP) German imaging spectroscopy mission is intended to fill this gap. An overview of the main characteristics and current status of the mission is provided in this contribution. The core payload of EnMAP consists of a dual-spectrometer instrument measuring in the optical spectral range between 420 and 2450 nm with a spectral sampling distance varying between 5 and 12 nm and a reference signal-to-noise ratio of 400:1 in the visible and near-infrared and 180:1 in the shortwave-infrared parts of the spectrum. EnMAP images will cover a 30 km-wide area in the across-track direction with a ground sampling distance of 30 m. An across-track tilted observation capability will enable a target revisit time of up to four days at the Equator and better at high latitudes. EnMAP will contribute to the development and exploitation of spaceborne imaging spectroscopy applications by making high-quality data freely available to scientific users worldwide.

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Automatic Endmember Extraction from Hyperspectral Data for Mineral Exploration

Neville¹,

Stáenz

Szeredi³

et al. 1999

163

103

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Linear unmixing is a commonly used technique for the analysis of imaging spectrometer data. This procedure requires the use of 'endmember' spectra which represent pure target species. One of the methods under investigation at Canada Centre for Remote Sensing for the automatic extraction of endmembers from the image cube, is called the 'Iterative Error Analysis', (IEA) method. This procedure is described, and the results of its application to a data set acquired over Nevada are presented.

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Estimating and mapping crop residues cover on agricultural lands using hyperspectral and IKONOS data

Bannari

Pacheco

Stáenz

et al. 2006

Remote Sensing of Environment

140

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Validation of a hyperspectral curve-fitting model for the estimation of plant water content of agricultural canopies

Champagne¹,

Stáenz²,

Bannari³

et al. 2003

Remote Sensing of Environment

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Precision Agriculture and the Role of Remote Sensing: A Review

Brisco

Brown

Hirose

et al. 1998

Canadian Journal of Remote Sensing

129

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K. Stáenz

The EnMAP Spaceborne Imaging Spectroscopy Mission for Earth Observation

Automatic Endmember Extraction from Hyperspectral Data for Mineral Exploration

Estimating and mapping crop residues cover on agricultural lands using hyperspectral and IKONOS data

Validation of a hyperspectral curve-fitting model for the estimation of plant water content of agricultural canopies

Precision Agriculture and the Role of Remote Sensing: A Review

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