ATT Squeeze U-Net: A Lightweight Network for Forest Fire Detection and Recognition

Forest fire is becoming one of the most significant natural disasters at the expense of ecology and economy. In this article, we develop an effective SqueezeNet based asymmetric encoder-decoder U-shape architecture, Attention U-Net and SqueezeNet (ATT Squeeze U-Net), mainly functions as an extractor...

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Bibliographic Details
Published inIEEE access Vol. 9; pp. 10858 - 10870
Main Authors Zhang, Jianmei, Zhu, Hongqing, Wang, Pengyu, Ling, Xiaofeng
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
attention U-Net
Coders
Convolution
Ecological effects
Encoders-Decoders
Feature extraction
fire module
Forest fire detection
Forest fire detection and recognition
Forestry
Image color analysis
Image segmentation
light-weight network
Modules
Natural disasters
Shape
SqueezeNet
Task analysis
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Summary:Forest fire is becoming one of the most significant natural disasters at the expense of ecology and economy. In this article, we develop an effective SqueezeNet based asymmetric encoder-decoder U-shape architecture, Attention U-Net and SqueezeNet (ATT Squeeze U-Net), mainly functions as an extractor and a discriminator of forest fire. This model takes attention mechanism to highlight useful features and suppress irrelevant contents by embedding Attention Gate (AG) units in the skip connection of U-shape structure. In this way, salient features are emphasized so that the proposed method could be competent at forest fire segmentation tasks with a small number of parameters. Specifically, we first replace classical convolution layer by a depthwise one and engage a Channel Shuffle operation as a feature communicator in the Fire module of classical SqueezeNet. Then, this modified SqueezeNet is employed as a substitution of the encoder of Attention U-Net and a corresponding DeFire module designed is combined into the decoder as well. Finally, to classify true fire, we take use of a fragment of the encoder in ATT Squeeze U-Net. The experimental results of modified SqueezeNet integrated Attention U-Net show that a competitive accuracy at 0.93 and an average prediction time at 0.89 second per image are achieved for reliable real-time forest fire detection.
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ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2021.3050628