Abstract
PROBA-V (PRoject for On-Board Autonomy–Vegetation) was launched in May-2013 as an operational continuation to the vegetation (VGT) instruments on-board the Système Pour l’Observation de la Terre (SPOT)-4 and -5 satellites. The first reprocessing campaign of the PROBA-V archive from Collection 0 (C0) to Collection 1 (C1) aims at harmonizing the time series, thanks to improved radiometric and geometric calibration and cloud detection. The evaluation of PROBA-V C1 focuses on (i) qualitative and quantitative assessment of the new cloud detection scheme; (ii) quantification of the effect of the reprocessing by comparing C1 to C0; and (iii) evaluation of the spatio-temporal stability of the combined SPOT/VGT and PROBA-V archive through comparison to METOP/advanced very high resolution radiometer (AVHRR). The PROBA-V C1 cloud detection algorithm yields an overall accuracy of 89.0%. Clouds are detected with very few omission errors, but there is an overdetection of clouds over bright surfaces. Stepwise updates to the visible and near infrared (VNIR) absolute calibration in C0 and the application of degradation models to the SWIR calibration in C1 result in sudden changes between C0 and C1 Blue, Red, and NIR TOC reflectance in the first year, and more gradual differences for short-wave infrared (SWIR). Other changes result in some bias between C0 and C1, although the root mean squared difference (RMSD) remains well below 1% for top-of-canopy (TOC) reflectance and below 0.02 for the normalized difference vegetation index (NDVI). Comparison to METOP/AVHRR shows that the recent reprocessing campaigns on SPOT/VGT and PROBA-V have resulted in a more stable combined time series.
Highlights
PROBA-V (PRoject for On-Board Autonomy–Vegetation) was launched on 7 May 2013
We evaluate PROBA-V Collection 1 (C1) (Section 4) focusing on three aspects: first, the new cloud detection scheme is qualitatively and quantitatively evaluated (Section 4.1); secondly, C1 is compared to Collection 0 (C0) in order to quantify the effect of the changes applied in the reprocessing (Section 4.2); the combined archive of Système Pour l’Observation de la Terre (SPOT)/VGT and PROBA-V is compared with an external time series derived from METOP/advanced very high resolution radiometer (AVHRR) in order to evaluate the temporal stability of the combined archive (Section 4.3)
In order to improve the consistency between the three PROBA-V cameras, adjustments to the absolute calibration coefficients of the visible and near infrared (VNIR) strips were implemented within the C0 near-real time (NRT) processing chain to correct for a band dependent camera-to-camera bias (Figure 1)
Summary
PROBA-V (PRoject for On-Board Autonomy–Vegetation) was launched on 7 May 2013. The main objective of PROBA-V is to be an operational mission that provides continuation to the data acquisitions of the vegetation (VGT) instruments on-board the Système Pour l’Observation de la Terre (SPOT)-4 and -5 satellites, and as such to operate as a “gap filler” between the decommissioning of the VGT instrument on SPOT5 and the start of operations of the Sentinel-3 constellation [1]. On board the PROBA-V, the optical instrument provides data at 1 km, 300 m, and 100 m consistent with the 1 km resolution data products of SPOT/VGT [3]. In 2016–2017, the first reprocessing campaign of the PROBA-V archive (Collection 0, C0) was performed, aiming at improving the time series and harmonizing its content, thanks to improved radiometric and geometric calibration and cloud detection. We evaluate PROBA-V C1 (Section 4) focusing on three aspects: first, the new cloud detection scheme is qualitatively and quantitatively evaluated (Section 4.1); secondly, C1 is compared to C0 in order to quantify the effect of the changes applied in the reprocessing (Section 4.2); the combined archive of SPOT/VGT and PROBA-V is compared with an external time series derived from METOP/advanced very high resolution radiometer (AVHRR) in order to evaluate the temporal stability of the combined archive (Section 4.3)
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