A neural network to retrieve cloud cover from all‐sky cameras: A case of study over Antarctica

IF 3 3区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Quarterly Journal of the Royal Meteorological Society Pub Date : 2024-08-28 DOI:10.1002/qj.4834

Daniel González‐Fernández, Roberto Román, Juan Carlos Antuña‐Sánchez, Victoria E. Cachorro, Gustavo Copes, Sara Herrero‐Anta, Celia Herrero del Barrio, África Barreto, Ramiro González, Ramón Ramos, Patricia Martín, David Mateos, Carlos Toledano, Abel Calle, Ángel de Frutos

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Abstract

We present a new model based on a convolutional neural network (CNN) to predict daytime cloud cover (CC) from sky images captured by all‐sky cameras, which is called CNN‐CC. A total of 49,016 daytime sky images, recorded at different Spanish locations (Valladolid, La Palma, and Izaña) from two different all‐sky camera types, are manually classified into different CC (oktas) values by trained researchers. Subsequently, the images are randomly split into a training set and a test set to validate the model. The CC values predicted by the CNN‐CC model are compared with the observations made by trained people on the test set, which serve as reference. The predicted CC values closely match the reference values within 1 oktas in 99% of the cloud‐free and overcast cases. Moreover, this percentage is above 93% for the rest of partially cloudy cases. The mean bias error (MBE) and standard deviation (SD) of the differences between the predicted and reference CC values are calculated, resulting in oktas and oktas. The MBE and SD are also represented for different intervals of measured aerosol optical depth and Ångström exponent values, revealing that the performance of the CNN‐CC model does not depend on aerosol load or size. Once the model is validated, the CC obtained from a set of images captured every 5 min, from January 2018 to March 2022, at the Antarctic station of Marambio (Argentina) is compared against direct field observations of CC (not from images) taken at this location, which is not used in the training process. As a result, the model slightly underestimates the observations with an MBE of 0.3 oktas. The retrieved data are analyzed in detail. The monthly and annual CC values are calculated. Overcast conditions are the most frequent, accounting for 46.5% of all observations throughout the year, rising to 64.5% in January. The annual mean CC value at this location is 5.5 oktas, with a standard deviation of approximately 3.1 oktas. A similar analysis is conducted, separating data by hours, but no significant diurnal cycles are observed except for some isolated months.

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从全天空照相机检索云层的神经网络：南极洲上空的研究案例

我们提出了一种基于卷积神经网络（CNN）的新模型，用于预测全天空照相机拍摄的天空图像中的日间云量（CC），该模型被称为 CNN-CC。训练有素的研究人员将在西班牙不同地点（巴利亚多利德、拉帕尔马和伊萨尼亚）用两种不同类型的全天空照相机拍摄的 49,016 幅白天天空图像手动分类为不同的 CC（oktas）值。随后，这些图像被随机分成训练集和测试集，以验证模型。CNN-CC 模型预测的 CC 值与经过培训的人员对测试集（作为参考）的观察结果进行比较。在 99% 的无云和阴天情况下，预测的 CC 值与参考值的吻合度在 1 oktas 以内。此外，在其他部分多云的情况下，这一比例也在 93% 以上。计算预测 CC 值与参考 CC 值之间差异的平均偏差误差 (MBE) 和标准偏差 (SD)，得出 oktas 和 oktas。平均偏差误差（MBE）和标准偏差（SD）还表示了气溶胶光学深度测量值和Ångström 指数值的不同区间，揭示了 CNN-CC 模型的性能与气溶胶负荷或大小无关。模型得到验证后，将 2018 年 1 月至 2022 年 3 月期间在南极马兰比奥站（阿根廷）每 5 分钟拍摄的一组图像中获得的 CC 与在该地点拍摄的直接实地 CC 观测数据（非图像）进行比较，后者未用于训练过程。结果，模型略微低估了观测数据，MBE 为 0.3 oktas。对检索到的数据进行了详细分析。计算了每月和每年的 CC 值。阴天情况最常见，占全年观测值的 46.5%，1 月份上升到 64.5%。该地点的 CC 年平均值为 5.5 oktas，标准偏差约为 3.1 oktas。按小时数对数据进行了类似的分析，但除个别月份外，没有观察到明显的昼夜周期。

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来源期刊

Quarterly Journal of the Royal Meteorological Society 地学-气象与大气科学

CiteScore

16.80

自引率

4.50%

发文量

163

审稿时长

3-8 weeks

期刊介绍： The Quarterly Journal of the Royal Meteorological Society is a journal published by the Royal Meteorological Society. It aims to communicate and document new research in the atmospheric sciences and related fields. The journal is considered one of the leading publications in meteorology worldwide. It accepts articles, comprehensive review articles, and comments on published papers. It is published eight times a year, with additional special issues. The Quarterly Journal has a wide readership of scientists in the atmospheric and related fields. It is indexed and abstracted in various databases, including Advanced Polymers Abstracts, Agricultural Engineering Abstracts, CAB Abstracts, CABDirect, COMPENDEX, CSA Civil Engineering Abstracts, Earthquake Engineering Abstracts, Engineered Materials Abstracts, Science Citation Index, SCOPUS, Web of Science, and more.