• Title of article

    Cystoscopy Image Classication Using Deep Convolutional Neural Networks

  • Author/Authors

    Hashemi, Mohammadreza Faculty of Computer Engineering and IT - Shahrood University of Technology, Shahrood, Iran , Hassanpour, Hamid Faculty of Computer Engineering and IT - Shahrood University of Technology, Shahrood, Iran , Kozegar, Ehsan University of Guilan, Guilan, Iran , Tan, Tao Eindhoven University of Technology - Eindhoven, the Netherlands

  • Pages
    23
  • From page
    193
  • To page
    215
  • Abstract
    In the past three decades, the use of smart methods in medical diagnostic systems has attracted the attention of many researchers. However, no smart activity has been provided in the eld of medical image processing for diagnosis of bladder cancer through cystoscopy images despite the high prevalence in the world. In this paper, two well-known convolutional neural networks (CNNs) and a multilayer neural network was applied to classify bladder cystoscopy images. One of the most im- portant issues in training phase of neural networks is determining the learning rate because selecting too small or large learning rate leads to slow convergence, volatility and divergence, respectively. Therefore, an algorithm is required to dynamically change the convergence rate. In this respect, an adaptive method was presented for determining the learning rate so that the multilayer neural network could be improved. In this method, the learning rate is determined using a coecient based on the dierence between the accuracy of training and validation according to the output error. In addition, the rate of changes is updated according to the level of weight changes and output error. The proposed method was evaluated on 720 bladder cystoscopy images in four classes of blood in urine, benign and malignant masses. Based on the simulated results, the second proposed method (CNNs) achieved at least 17% decrease in error and increased the convergence speed of the proposed method in the classication of cystoscopy images, compared to the other competing methods.
  • Keywords
    CNNs , Adaptive Learning Rate , MLP Neural Network , Cystoscopy Images , Medical Image Classification
  • Serial Year
    2019
  • Record number

    2493547