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Refined Color Texture Classification Using CNN and Local Binary Pattern

Author

Listed:
  • Khalid M. Hosny
  • Taher Magdy
  • Nabil A. Lashin
  • Kyriakos Apostolidis
  • George A. Papakostas
  • Muhammad Haroon Yousaf

Abstract

Representation and classification of color texture generate considerable interest within the field of computer vision. Texture classification is a difficult task that assigns unlabeled images or textures to the correct labeled class. Some key factors such as scaling and viewpoint variations and illumination changes make this task challenging. In this paper, we present a new feature extraction technique for color texture classification and recognition. The presented approach aggregates the features extracted from local binary patterns (LBP) and convolution neural network (CNN) to provide discriminatory information, leading to better texture classification results. Almost all of the CNN model cases classify images based on global features that describe the image as a whole to generalize the entire object. LBP classifies images based on local features that describe the image’s key points (image patches). Our analysis shows that using LBP improves the classification task when compared to using CNN only. We test the proposed approach experimentally over three challenging color image datasets (ALOT, CBT, and Outex). The results demonstrated that our approach improved up to 25% in the classification accuracy over the traditional CNN models. We identify optimal combinations for each dataset and obtain high classification rates. The proposed approach is robust, stable, and discriminatory among the three datasets and has shown enhancement in classification and recognition compared to the state-of-the-art method.

Suggested Citation

  • Khalid M. Hosny & Taher Magdy & Nabil A. Lashin & Kyriakos Apostolidis & George A. Papakostas & Muhammad Haroon Yousaf, 2021. "Refined Color Texture Classification Using CNN and Local Binary Pattern," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-15, November.
  • Handle: RePEc:hin:jnlmpe:5567489
    DOI: 10.1155/2021/5567489
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