Journal
JOURNAL OF HAZARDOUS MATERIALS
Volume 465, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jhazmat.2023.133074
Keywords
Adaptive boosting; Ensemble learning; Indoor air quality; Long short-term memory; Soft sensor
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This study improves the accurate monitoring of indoor air quality (IAQ) in subway environments by using an ensemble learning technique, AdaBoostLSTM, and kernel principal component analysis (KPCA). The results show that the proposed ensemble model, KPCA-AdaBoost-LSTM, achieves higher modeling performance in predicting PM2.5.
Public health depends on indoor air quality (IAQ), hence soft measurement techniques must be implemented in the subway environment for more precise and reliable monitoring of indoor particulate matter concentration levels. Adaptive boosting (AdaBoost), an ensemble learning technique, is simple to code and less prone to overfitting. Compared to a single model, it is better able to take into consideration the intricate elements included in air quality data. It is suggested to use an adaptive boosting of long short-term memory (AdaBoostLSTM) model and kernel principal component analysis (KPCA) for ensemble learning. The kernel function and PCA are first coupled to create KPCA, which is a nonlinear dimensionality reduction method for IAQ. This removes the negative impacts of noise interference. The learning performance of LSTM is then enhanced using AdaBoost as an ensemble learning technique. The KPCA-AdaBoost-LSTM model can deliver higher modeling performance, according to the results. The R2 reached 0.9007 and 0.8995 when predicting PM2.5 in the hall and platform. SHapley Additive exPlanations (SHAP) analysis was used to interpret the input contributions of the model, enhancing the interpretability and transparency of the proposed soft sensor.
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