Dempster–Shafer and LSTM based analysis and forecasting of total ozone data

IF 1.4 4区地球科学 Q3 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY

Remote Sensing Letters Pub Date : 2023-09-23 DOI:10.1080/2150704x.2023.2258466

Rashmi Rekha Devi, Soumya Banerjee, Surajit Chattopadhyay

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引用次数: 0

Abstract

ABSTRACTTotal ozone time series in a metropolis in India were examined in the current study. The data explored are obtained through Brewer spectrophotometer, which counts photons with a photomultiplier to calculate UV irradiance in the spectrum and measures total ozone when the relative route of photons through the ozone layer (air mass) is 3.5 or less. The total ozone time series’ uncertainty was thoroughly examined using the Dempster–Shafer method, and the association was also depicted using three-dimensional graphs. Finally, the Adam Optimisation Algorithm and the Rectified Linear Unit were used to demonstrate the prediction capability of the single layer Long Short-Term Memory model.KEYWORDS: Total ozoneDempster–Shafer theoryfuzzy setjoint belief measureLSTM Disclosure statementNo potential conflict of interest was reported by the author(s).Data availability statementThe World Ozone and Ultraviolet Radiation Data Centre (WOUDC) website was used to collect the observational Total Ozone monthly data for the region of New Delhi, India, for the years 2017 to 2021. The data can be accessed at the following link: https://woudc.org/data/explore.php#.

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基于Dempster-Shafer和LSTM的臭氧总量分析与预报

摘要本文研究了印度某大都市的总臭氧时间序列。所探索的数据是通过布鲁尔分光光度计获得的，该分光光度计使用光电倍增管计数光子以计算光谱中的紫外线辐照度，并在光子通过臭氧层(气团)的相对路径为3.5或更小时测量总臭氧。使用Dempster-Shafer方法彻底检查了总臭氧时间序列的不确定性，并使用三维图形描述了这种关联。最后，利用Adam优化算法和校正线性单元验证了单层长短期记忆模型的预测能力。关键词:臭氧总量dempster - shafer理论模糊集联合信念测度披露声明作者未报告潜在利益冲突。数据可用性声明使用世界臭氧和紫外线辐射数据中心(WOUDC)网站收集了2017年至2021年印度新德里地区每月总臭氧观测数据。该数据可通过以下链接访问:https://woudc.org/data/explore.php#。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Remote Sensing Letters REMOTE SENSING-IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY

CiteScore

4.10

自引率

4.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Remote Sensing Letters is a peer-reviewed international journal committed to the rapid publication of articles advancing the science and technology of remote sensing as well as its applications. The journal originates from a successful section, of the same name, contained in the International Journal of Remote Sensing from 1983 –2009. Articles may address any aspect of remote sensing of relevance to the journal’s readership, including – but not limited to – developments in sensor technology, advances in image processing and Earth-orientated applications, whether terrestrial, oceanic or atmospheric. Articles should make a positive impact on the subject by either contributing new and original information or through provision of theoretical, methodological or commentary material that acts to strengthen the subject.