Scientific Reports (Oct 2024)

Computer vision and deep transfer learning for automatic gauge reading detection

  • Hitesh Ninama,
  • Jagdish Raikwal,
  • Ananda Ravuri,
  • Deepak Sukheja,
  • Sourav Kumar Bhoi,
  • N. Z. Jhanjhi,
  • Asma Abbas Hassan Elnour,
  • Abdelzahir Abdelmaboud

DOI
https://doi.org/10.1038/s41598-024-71270-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract This manuscript proposes an automatic reading detection system for an analogue gauge using a combination of deep learning, machine learning, and image processing. The study suggests image-processing techniques in manual analogue gauge reading that include generating readings for the image to provide supervised data to address difficulties in unsupervised data in gauges and to achieve better accuracy using DenseNet 169 compared to other approaches. The model uses artificial intelligence to automate reading detection using deep transfer learning models like DenseNet 169, InceptionNet V3, and VGG19. The models were trained using 1011 labeled pictures, 9 classes, and readings from 0 to 8. The VGG19 model exhibits a high training precision of 97.00% but a comparatively lower testing precision of 75.00%, indicating the possibility of overfitting. On the other hand, InceptionNet V3 demonstrates consistent precision across both datasets, but DenseNet 169 surpasses other models in terms of precision and generalization capabilities.

Keywords