sizedistribution
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sizedistribution [2022/09/14 16:40] – [3D cloud reconstructions using stereo cameras] burchart | sizedistribution [2022/09/14 16:42] (current) – [3D cloud reconstructions using stereo cameras] burchart | ||
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The SOCLES project (Stereo Observations of Clouds for LES Validation and Sub-scale Cloud Parameterizations) combines high-frequency cloud observations by multiple hemispheric cameras with high-resolution Large-Eddy Simulations (LES) at the [[https:// | The SOCLES project (Stereo Observations of Clouds for LES Validation and Sub-scale Cloud Parameterizations) combines high-frequency cloud observations by multiple hemispheric cameras with high-resolution Large-Eddy Simulations (LES) at the [[https:// | ||
- | SOCLES aims to fill a critical data gap concerning cumulus cloud geometry with new tools and methods, thus creating new opportunities for making progress. The high-resolution sampling capability of stereo reconstruction in four dimensions, combined with its considerable spatial coverage, allows capturing cumulus cloud populations in unprecedented detail. The LES realizations supplement this observational data, used as a virtual laboratory for gaining insight and for testing measurement strategies. Assessing the realism of the LES is of key importance, involving the determination of the resolution at which simulated cloud irregularity starts to match the stereo camera observations. For this purpose, the open source [[http:// | + | SOCLES aims to fill a critical data gap concerning cumulus cloud geometry with new tools and methods, thus creating new opportunities for making progress. The high-resolution sampling capability of stereo reconstruction in four dimensions, combined with its considerable spatial coverage, allows capturing cumulus cloud populations in unprecedented detail. The LES realizations supplement this observational data, used as a virtual laboratory for gaining insight and for testing measurement strategies. Assessing the realism of the LES is of key importance, involving the determination of the resolution at which simulated cloud irregularity starts to match the stereo camera observations. For this purpose, the open source [[http:// |
SOCLES is an ongoing joint effort by scientists at the University of Bonn and the University of Cologne, supported by DFG: https:// | SOCLES is an ongoing joint effort by scientists at the University of Bonn and the University of Cologne, supported by DFG: https:// |
sizedistribution.1663166436.txt.gz · Last modified: 2022/09/14 16:40 by burchart