All-sky photogrammetry techniques to georeference a cloud field

TitleAll-sky photogrammetry techniques to georeference a cloud field
Publication TypeJournal Article
Year of Publication2018
AuthorsCrispel P., Roberts G.
JournalAtmospheric Measurement Techniques
Date Published2018/01
Type of ArticleArticle
ISBN Number1867-1381
Accession NumberWOS:000423706100002
Keywordsbase height; calibration; cameras; Meteorology & Atmospheric Sciences; stereo; stereophotogrammetry

In this study, we present a novel method of identifying and geolocalizing cloud field elements from a portable all-sky camera stereo network based on the ground and oriented towards zenith. The methodology is mainly based on stereophotogrammetry which is a 3-D reconstruction technique based on triangulation from corresponding stereo pixels in rectified images. In cases where clouds are horizontally separated, identifying individual positions is performed with segmentation techniques based on hue filtering and contour detection algorithms. Macroscopic cloud field characteristics such as cloud layer base heights and velocity fields are also deduced. In addition, the methodology is fitted to the context of measurement campaigns which impose simplicity of implementation, auto-calibration, and portability. Camera internal geometry models are achieved a priori in the laboratory and validated to ensure a certain accuracy in the peripheral parts of the all-sky image. Then, stereophotogrammetry with dense 3-D reconstruction is applied with cameras spaced 150m apart for two validation cases. The first validation case is carried out with cumulus clouds having a cloud base height at 1500ma. g.l. The second validation case is carried out with two cloud layers: a cumulus fractus layer with a base height at 1000ma. g.l. and an altocumulus stratiformis layer with a base height of 2300ma. g.l. Velocity fields at cloud base are computed by tracking image rectangular patterns through successive shots. The height uncertainty is estimated by comparison with a Vaisala CL31 ceilometer located on the site. The uncertainty on the horizontal coordinates and on the velocity field are theoretically quantified by using the experimental uncertainties of the cloud base height and camera orientation. In the first cumulus case, segmentation of the image is performed to identify individuals clouds in the cloud field and determine the horizontal positions of the cloud centers.

Short TitleAtmos. Meas. Tech.
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