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Forest Fire Segmentation

With the advent of climate change comes the fear wildfires will become a rising concern in the near future as is hinted by several environmental studies. This fear has already become a reality for some parts of the globe.

This work implements and compares different deep learning architectures for flame semantic segmentation on RGB images from the Corsican Fire Database.

Results are compared in terms of the intersection over union (IoU), the mean squared error (MSE), the binary accuracy and the recall metrics as well as their number of network parameters.

The implemented architectures are:

  • FLAME U-Net
  • DeepLabv3+ with ResNet-50 backbone
  • DeepLabv3+ with EfficientNet-B4 backbone
  • Squeeze U-Net
  • ATT Squeeze U-Net

Results

Architecture recall IoU accuracy MSE # parameters
FLAME U-Net 0.94 0.892 0.943 0.043 2M
DLV3+ w/ ResNet50 0.968 0.926 0.962 0.031 40M
DLV3+ w/ EfficientNetB4 0.967 0.93 0.964 0.028 22M
Squeeze U-Net 0.930 0.897 0.946 0.042 2.5M
ATT Squeeze U-Net 0.928 0.893 0.944 0.042 885K

Results