Fire Science Living Lab for Flashover Prediction

Cortés, Daniel; Gil, David; Molina‐Azorín, José F.

doi:10.3390/proceedings2019031087

13th International Conference on Ubiquitous Computing and Ambient ‪Intelligence UCAmI 2019‬ 2019

DOI: 10.3390/proceedings2019031087

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Fire Science Living Lab for Flashover Prediction

Daniel Cortés

David Gil

José F. Molina‐Azorín

Abstract: There is a huge demand for new techniques and technologies to tackle life-threatening in fire emergencies. Enclosure fires are a type of emergency involving firefighters whose lives are sometimes put at risk. In any confined fire, the emergency team may encounter two types of combustion environments, ventilated or under-ventilated. The rapidly changing behaviour of this scenario depends on multiple factors such as enclosure size, ventilation, or type and quantity of fuel involved. However, the difficulty of ha… Show more

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2024

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Vision-Based Prediction of Flashover Using Transformers and Convolutional Long Short-Term Memory Model

Mozaffari,

Li,

Hooshyaripour

et al. 2024

Electronics

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The prediction of fire growth is crucial for effective firefighting and rescue operations. Recent advancements in vision-based techniques using RGB vision and infrared (IR) thermal imaging data, coupled with artificial intelligence and deep learning techniques, have shown promising solutions to be applied in the detection of fire and the prediction of its behavior. This study introduces the use of Convolutional Long Short-term Memory (ConvLSTM) network models for predicting room fire growth by analyzing spatiotemporal IR thermal imaging data acquired from full-scale room fire tests. Our findings revealed that SwinLSTM, an enhanced version of ConvLSTM combined with transformers (a deep learning architecture based on a new mechanism called multi-head attention) for computer vision purposes, can be used for the prediction of room fire flashover occurrence. Notably, transformer-based ConvLSTM deep learning models, such as SwinLSTM, demonstrate superior prediction capability, which suggests a new vision-based smart solution for future fire growth prediction tasks. The main focus of this work is to perform a feasibility study on the use of a pure vision-based deep learning model for analysis of future video data to anticipate behavior of fire growth in room fire incidents.

show abstract

Vision-Based Prediction of Flashover Using Transformers and Convolutional Long Short-Term Memory Model

Mozaffari,

Li,

Hooshyaripour

et al. 2024

Electronics

View full text Add to dashboard Cite

show abstract

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Fire Science Living Lab for Flashover Prediction

Cited by 1 publication

References 11 publications

Vision-Based Prediction of Flashover Using Transformers and Convolutional Long Short-Term Memory Model

Vision-Based Prediction of Flashover Using Transformers and Convolutional Long Short-Term Memory Model

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