1. Variational Bayesian Network with Information Interpretability Filtering for Air Quality Forecasting.
- Author
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Jin, Xue-Bo, Wang, Zhong-Yao, Gong, Wen-Tao, Kong, Jian-Lei, Bai, Yu-Ting, Su, Ting-Li, Ma, Hui-Jun, and Chakrabarti, Prasun
- Subjects
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DEEP learning , *BAYESIAN analysis , *AIR quality , *INFORMATION filtering , *INFORMATION networks , *RECOMMENDER systems , *FORECASTING - Abstract
Air quality plays a vital role in people's health, and air quality forecasting can assist in decision making for government planning and sustainable development. In contrast, it is challenging to multi-step forecast accurately due to its complex and nonlinear caused by both temporal and spatial dimensions. Deep models, with their ability to model strong nonlinearities, have become the primary methods for air quality forecasting. However, because of the lack of mechanism-based analysis, uninterpretability forecasting makes decisions risky, especially when the government makes decisions. This paper proposes an interpretable variational Bayesian deep learning model with information self-screening for PM2.5 forecasting. Firstly, based on factors related to PM2.5 concentration, e.g., temperature, humidity, wind speed, spatial distribution, etc., an interpretable multivariate data screening structure for PM2.5 forecasting was established to catch as much helpful information as possible. Secondly, the self-screening layer was implanted in the deep learning network to optimize the selection of input variables. Further, following implantation of the screening layer, a variational Bayesian gated recurrent unit (GRU) network was constructed to overcome the complex distribution of PM2.5 and achieve accurate multi-step forecasting. The high accuracy of the proposed method is verified by PM2.5 data in Beijing, China, which provides an effective way, with multiple factors for PM2.5 forecasting determined using deep learning technology. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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