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A deep transfer learning based convolution neural network framework for air temperature classification using human

Maqsood Ahmed1, Xiang Zhang2,3, Yonglin Shen4

  • 1School of Geography and Information Engineering, China University of Geosciences, Wuhan, 430074, China.

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|December 31, 2024
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Summary

This study introduces a new framework using transfer learning for weather recognition from clothing images. DenseNet121 achieved 98.13% accuracy in classifying air temperature levels, improving weather prediction.

Keywords:
Air temperatureClassificationDeep transfer learningHuman clothing

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Area of Science:

  • Computer Vision
  • Artificial Intelligence
  • Environmental Science

Background:

  • Weather recognition is vital for daily life, impacting prediction, monitoring, and energy.
  • Existing image-based weather recognition methods lack accuracy and cover limited phenomena.
  • Accurate air temperature classification from visual cues is an underexplored area.

Purpose of the Study:

  • To develop and evaluate a transfer learning Convolutional Neural Network (CNN) framework for classifying air temperature levels using human clothing images.
  • To assess the performance of various deep transfer learning models, including DeepLabV3 Plus, BigTransfer (BiT), Vision Transformer (ViT), ResNet101, VGG16, VGG19, and DenseNet121.
  • To validate the model's interpretability using Gradient-weighted Class Activation Mapping (Grad-CAM).

Main Methods:

  • A novel Human Clothing Image Dataset (HCID) with 10,000 images across High and Low air temperature categories was curated.
  • A CNN framework leveraging deep transfer learning approaches was implemented for image classification.
  • Models were rigorously evaluated using metrics like accuracy, precision, F1-score, recall, AUC-ROC, and confusion matrices.

Main Results:

  • DenseNet121 demonstrated superior performance, achieving an accuracy of 98.13% in classifying air temperature levels.
  • All evaluated models showed promising results in distinguishing between high and low temperature conditions.
  • Grad-CAM analysis provided insights into the visual features driving the classification decisions.

Conclusions:

  • The proposed transfer learning CNN framework effectively classifies air temperature levels from human clothing images.
  • DenseNet121 offers a highly accurate solution for this task, outperforming other tested models.
  • This research presents a valuable tool for enhancing weather prediction and environmental monitoring systems.