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CT-Fire: a CNN-Transformer for wildfire classification on ground and aerial images

Rafik Ghali, Moulay A. Akhloufi

2023International Journal of Remote Sensing12 citationsDOI

Abstract

Wildfires pose a serious threat to the environment, ecosystems, property, biodiversity, and human life. Early detection of wildland fires is crucial for effective firefighting and mitigation. In this paper, we propose an ensemble learning method, called CT-Fire, which combines the deep CNN RegNetY and the vision transformer EfficientFormer v2 to recognize and detect forest fires on ground and aerial images. Testing results showed that CT-Fire achieved excellent performance with fast speed and accuracy of 99.62% and 87.77% using ground and aerial images, respectively. CT-Fire also outperformed benchmark CNNs and vision transformer methods, showing its accurate reliability in detecting wildfires. It also surpassed various challenges, including the detection of very small wildfires, background complexity, image quality, and wildland fire variability in terms of intensity, size, and shape.

Topics & Concepts

FirefightingComputer scienceEnvironmental scienceFire detectionTransformerRemote sensingAerial imageryArtificial intelligenceAerial imageBenchmark (surveying)EcosystemCartographyGeographyImage (mathematics)EcologyEngineeringElectrical engineeringArchitectural engineeringVoltageBiologyFire Detection and Safety SystemsFire effects on ecosystemsVideo Surveillance and Tracking Methods
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