In-Situ and Aircraft Reflectance Measurement Effectiveness for CAL/VAL Activities: A Study over Railroad Valley

This paper aims to assess the relationship between the surface reflectance derived from ground based and aircraft measurements. The parameters of the Rahman–Pinty–Verstraete (RPV) and Ross Thick-LiSparse (RTLS) kernel based bi-directional reflectance distribution functions (BRDF), have been derived...

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Published inRemote sensing (Basel, Switzerland) Vol. 12; no. 20; p. 3366
Main Authors Lanconelli, Christian, Banks, Andrew Clive, Muller, Jan-Peter, Bruegge, Carol, Cappucci, Fabrizio, Gatebe, Charles, Kharbouche, Said, Morgan, Olivier, Mota, Bernardo, Gobron, Nadine
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2020
Subjects
3-D RTM
Aircraft
albedo
Algorithms
Anisotropy
Asymmetry
Atmosphere
Benchmarks
BRDF
Calibration
Diffuse radiation
Distribution functions
in-situ measurement
Kernels
Landsat
Landsat satellites
Mathematical models
Mimicry
Optical properties
Parameters
Polynomials
Radiative transfer
Radiometers
Railroads
Reflectance
Remote sensing
Retrieval
Simulation
Spectroradiometers
Turbidity
Uncertainty
validation
Valleys
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Summary:This paper aims to assess the relationship between the surface reflectance derived from ground based and aircraft measurements. The parameters of the Rahman–Pinty–Verstraete (RPV) and Ross Thick-LiSparse (RTLS) kernel based bi-directional reflectance distribution functions (BRDF), have been derived using actual measurements of the hemispherical-directional reflectance factor (HDRF), collected during different campaigns over the Railroad Valley Playa. The effect of the atmosphere, including that of the diffuse radiation on bi-directional reflectance factor (BRF) parameter retrievals, assessed using 6S model simulations, was negligible for the low turbidity conditions of the site under investigation (τ550≤0.05). It was also shown that the effects of the diffuse radiation on RPV spectral parameters retrieval is linear for the isotropic parameter ρ0 and the scattering parameter Θ, and can be described with a second order polynomial for the k-Minnaert parameter. In order to overcome the lack of temporal collocations between aircraft and in-situ measurements, Monte Carlo 3-D radiative transfer simulations mimicking in-situ and remote sensing techniques were performed on a synthetic parametric meshed scene defined by merging Landsat and Multianglhe Imaging Spectroradiometer (MISR) remote sensing reflectance data. We simulated directional reflectance measurements made at different heights for PARABOLA and CAR, and analyzed them according to practices adopted for real measurements, consisting of the inversion of BRF functions and the calculation of the bi-hemispherical reflectance (BHR). The difference of retrievals against the known benchmarks of kernel parameters and BHR is presented. We associated an uncertainty of up to 2% with the retrieval of area averaged BHR, independently of flight altitudes and the BRF model used for the inversion. As expected, the local nature of PARABOLA data is revealed by the difference of the anisotropic kernel parameters with the corresponding parameters retrieved from aircraft loops. The uncertainty of the resultant BHR fell within ±3%.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs12203366