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- Title
Analysis of 2D airglow imager data with respect to dynamics using machine learning.
- Authors
Sedlak, René; Welscher, Andreas; Hannawald, Patrick; Wüst, Sabine; Lienhart, Rainer; Bittner, Michael
- Abstract
We demonstrate how machine learning can be easily applied to support the analysis of large amounts of OH* airglow imager data. We use a TCN (temporal convolutional network) classification algorithm to automatically pre-sort images into the three categories "dynamic" (images where small-scale motions like turbulence are likely to be found), "calm" (clear-sky images with weak airglow variations) and "cloudy" (cloudy images where no airglow analyses can be performed). The proposed approach is demonstrated using image data of FAIM 3 (Fast Airglow IMager), acquired at Oberpfaffenhofen, Germany between 11 June 2019 and 25 February 2020, achieving a mean average precision of 0.82 in image classification. The attached video sequence demonstrates the classification abilities of the learned TCN. Within the "dynamic" category, we find a subset of 13 episodes of image series showing turbulence. As FAIM 3 exhibits a high spatial (23 m pixel-1) and temporal (2.8 s per image) resolution, turbulence parameters can be derived to estimate the energy diffusion rate. Similar to the results the authors found for another FAIM station (Sedlak et al., 2021), the values of energy dissipation rate range from 0.03 to 3.18 W kg-1.
- Subjects
GERMANY; CONVOLUTIONAL neural networks; AIRGLOW; MACHINE dynamics; IMAGE recognition (Computer vision); CLASSIFICATION algorithms
- Publication
Atmospheric Measurement Techniques Discussions, 2023, p1
- ISSN
1867-8610
- Publication type
Article
- DOI
10.5194/amt-2023-25