W.H. Bakker scite author profile

In this article we describe a new instrumental setup at the University of Twente Faculty ITC with an optimized processing chain to measure absolute directional-hemispherical reflectance values of typical earth science samples in the 2.5 to 16 μm range. A Bruker Vertex 70 FTIR spectrometer was chosen as the base instrument. It was modified with an external integrating sphere with a 30 mm sampling port to allow measuring large, inhomogeneous samples and quantitatively compare the laboratory results to airborne and spaceborne remote sensing data. During the processing to directional-hemispherical reflectance values, a background radiation subtraction is performed, removing the effect of radiance not reflected from the sample itself on the detector. This provides more accurate reflectance values for low-reflecting samples. Repeat measurements taken over a 20 month period on a quartz sand standard show that the repeatability of the system is very high, with a standard deviation ranging between 0.001 and 0.006 reflectance units depending on wavelength. This high level of repeatability is achieved even after replacing optical components, re-aligning mirrors and placement of sample port reducers. Absolute reflectance values of measurements taken by the instrument here presented compare very favorably to measurements of other leading laboratories taken on identical sample standards.

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Mapping the wavelength position of deepest absorption features to explore mineral diversity in hyperspectral images

Ruitenbeek

Bakker

Werff

et al. 2014

Planetary and Space Science

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MERIS and the red-edge position

Clevers

Jong

Epema

et al. 2001

International Journal of Applied Earth Observation and Geoinfor

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W.H. Bakker

Hyperconcentrated Sand‐Water Mixture Flows over Erodible Bed

Derivation of the red edge index using the MERIS standard band setting

Thermal Infrared Spectrometer for Earth Science Remote Sensing Applications—Instrument Modifications and Measurement Procedures

Mapping the wavelength position of deepest absorption features to explore mineral diversity in hyperspectral images

MERIS and the red-edge position

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