PM2.5 Concentration Forecasting Using Weighted Bi-LSTM and Random Forest Feature Importance-Based Feature Selection

Kim, Baekcheon; Kim, Eunkyeong; Jung, Seunghwan; Kim, Minseok; Kim, Jinyong; Kim, Sungshin

doi:10.3390/atmos14060968

Cited by 4 publications

(1 citation statement)

References 42 publications

(45 reference statements)

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“…Experiments were performed using LSTM, GRU (Saif-ul-Allah et al, 2022) and the proposed model and analysis were based on the results (Hochreiter and Schmidhuber, 1997;Staudemeyer and Morris, 2019). In the LSTM model(Sun and Li, 2020), Bidirectional LSTM (Kim et al, 2023) was utilized in the 1 st layer. Adam algorithm with a learning rate (0.001) was used as an optimizer.…”

Section: Methodsmentioning

confidence: 99%

PM2.5 concentration prediction using Generative adversarial network: A novel approach

Medhi,

Gogoi

2024

JANS

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Over the last few years, air pollution has become a matter of great concern. Numerous machine learning and deep learning techniques have been applied to predict PM2.5 (Particulate Matter2.5). However, deterministic models perform forecasting based on the mean of probable outputs and cannot handle the uncertainties in real-life situations. With the aim of solving the low accuracy of PM2.5 concentration prediction during uncertainties, the present study proposed an innovative probabilistic model-Prob PM2.5 which predicts one day ahead PM2.5 concentration for time series data, which is multivariate in nature. First, a comprehensive correlation analysis between the meteorological features and PM2.5 concentration is done. Finally, the Conditional GAN framework is used to train the ProbPM2.5 with the help of adversarial training. The proposed framework that transformed a deterministic model into a probabilistic model provided improved performance. Comparative analysis with conventional models, such as LSTM (Long Short-Term Memory) and GRU (Gated Recurrent Unit) reveals that ProbPM2.5 outperforms during testing, showcasing resilience in the face of unforeseen events like COVID-19. Hence, the proposed method could perform improved characterization of time series characteristics of the air pollutant changes in order to obtain better accuracy of PM2.5 concentration prediction

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Section: Methodsmentioning

confidence: 99%

PM2.5 concentration prediction using Generative adversarial network: A novel approach

Medhi,

Gogoi

2024

JANS

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Multi-classification prediction of PM2.5 concentration based on improved adaptive boosting rotation forest

Deng,

Jia,

Liu

et al. 2024

Journal of Environmental Chemical Engineering

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Air quality index prediction for clearer skies using improved long short-term memory

Bahadure,

Sahare,

Shukla

et al. 2024

IDT

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Air pollution has become an international calamity, a problem for human health and the environment. The ability to predict the air quality becomes a crucial task. The usual approaches for assessing air quality are exhausted when extracting complicated non-linear relationships and long-term dependence features embedded in the data. Long- and short-term memory, a recurrent neural network family, has emerged as a potent tool for addressing the mentioned issues, so computer-aided technology has become essential to aid with a high level of prediction and best-in-class accuracy. In this study, we investigated classic time-series analysis based on Improved Long short-term memory (ILSTM) to improve the performance of air quality index prediction. The predicted AQI value for the 25 days lies in a 97.63% Confidence interval zone and highly adoptable performance metrics such as R-Square, MSE, RMSE, and MAE values.

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PM2.5 Concentration Forecasting Using Weighted Bi-LSTM and Random Forest Feature Importance-Based Feature Selection

Cited by 4 publications

References 42 publications

PM2.5 concentration prediction using Generative adversarial network: A novel approach

PM2.5 concentration prediction using Generative adversarial network: A novel approach

Multi-classification prediction of PM2.5 concentration based on improved adaptive boosting rotation forest

Air quality index prediction for clearer skies using improved long short-term memory

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