Prediction and Comparison of In-Vehicle CO2 Concentration Based on ARIMA and LSTM Models

Han, Jie; Lin, Han; Qin, Zhenkai

doi:10.3390/app131910858

Cited by 4 publications

(2 citation statements)

References 68 publications

(89 reference statements)

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“…Taylor et al [13] harnessed the potential of LSTM networks for anomaly detection in automobile control network data. Han et al [14] investigated in-vehicle concentration levels of CO 2 , comparing the accuracy of an autoregressive integrated moving average (ARIMA) model and LSTM model in predicting the change in CO 2 concentration. Ji et al [15] proposed a hybrid neural network (HNN) prediction model (CNN-BiLSTM-Attention) based on deep learning (DL) for predicting the exhaust gas temperature (EGT) of marine diesel engines.…”

Section: Introductionmentioning

confidence: 99%

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Anomaly Detection Based on LSTM Learning in IoT-Based Dormitory for Indoor Environment Control

Noh,

Moon

2023

Buildings

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This study focuses on gathering environmental data concerning the indoor climate within a dormitory, encompassing variables such as air temperature, relative humidity, CO2 concentration, fine dust concentration, illuminance, and total volatile organic compounds. Subsequently, an anomaly detection long short-term memory model (LSTM) model, utilizing a two-stacked LSTM model, was developed and trained to enhance indoor environment control. The study demonstrated that the trained model effectively identified anomalies within eight environmental variables. Graphical representations illustrate the model’s accuracy in anomaly detection. The trained model has the capacity to monitor indoor environmental data collected and transmitted using an Internet-of-Things sensor. In the event of an anomaly domain prediction, it proactively alerts the building manager, facilitating timely indoor environment control. Furthermore, the model can be seamlessly integrated into indoor environment control systems to actively detect anomalies, thereby contributing to the automation of control processes.

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Section: Introductionmentioning

confidence: 99%

“…Ji et al [15] proposed a hybrid neural network (HNN) prediction model (CNN-BiLSTM-Attention) based on deep learning (DL) for predicting the exhaust gas temperature (EGT) of marine diesel engines. In [14,15], graphs showing abnormal sections were not presented. The research question of this study is as follows:…”

Section: Introductionmentioning

confidence: 99%

Anomaly Detection Based on LSTM Learning in IoT-Based Dormitory for Indoor Environment Control

Noh,

Moon

2023

Buildings

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The Future of Bitcoin Price Predictions Integrating Deep Learning and the Hybrid Model Method

Belalova,

Mannanova,

Karimov

2023

Proceedings of the 7th International Conference on Future Networks and Distributed Systems

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Modelling Prefabricated Construction Safety

Masood

2024

Applied Sciences

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Prefabricated construction is expanding and taking over traditional construction with more intervention of prefabricated building elements. Despite prefabricated construction reducing health and safety risks compared to conventional construction, there is still a risk that needs to be addressed. This article aims to investigate prefabricated construction safety through accident analysis. The accident data was retrieved through governmental resources and covered accident claims, safety costs, vulnerable occupations, and injuries (including type, cause, prior activity, and site of injury). Prefabricated construction safety is then simplistic and predictively modelled. The most common trend has been reported with graphical representation and relevant discussion. Furthermore, the trends are forecasted by using the ARIMA model (p, d, q) based on key performance parameters. The conclusion has been driven by the current status of prefabricated construction safety. This study is a pioneer in modelling prefabricated construction safety to enhance understanding of accidents and forecasting through optimization.

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Prediction and Comparison of In-Vehicle CO2 Concentration Based on ARIMA and LSTM Models

Cited by 4 publications

References 68 publications

Anomaly Detection Based on LSTM Learning in IoT-Based Dormitory for Indoor Environment Control

Anomaly Detection Based on LSTM Learning in IoT-Based Dormitory for Indoor Environment Control

The Future of Bitcoin Price Predictions Integrating Deep Learning and the Hybrid Model Method

Modelling Prefabricated Construction Safety

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