An efficient automatic brain tumor classification using optimized hybrid deep neural network

S. Shanthi , S. Saradha , J.A. Smitha , N. Prasath , H. Anandakumar
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引用次数: 16

Abstract

A significant topic of investigation in the area of medical imaging is brain tumor classification. Since precision is significant for classification, computer vision researchers have developed several approaches, but they still struggle with poor accuracy. In this paper, an automatic optimized hybrid deep neural network (OHDNN) is suggested for brain tumors. The proposed approach consists of two phases such as pre-processing and brain tumor classification. At first, the images are composed of the data, and then the collected imageries are pre-processed by using the following steps such as image enhancement and noise removal. Then the pre-processed images are fed to the classification stage. For the classification process, in this paper, OHDNN is used. The HDNN is a combination of a convolution neural network and long short-term memory (CNN-LSTM). Here, the CNN classifier is used for feature map generation and the classification process LSTM classifier is used. Besides, to improve the performance of the CNN-LSTM classifier, the parameter extant in the classifiers is randomly selected utilizing the adaptive rider optimization (ARO) algorithm. For the experimental process, an MRI image dataset is utilized. The experimental results show proposed approach attained the maximum accuracy of 97.5.

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基于优化混合深度神经网络的高效脑肿瘤自动分类
脑肿瘤的分类是医学影像领域一个重要的研究课题。由于精度对分类来说很重要,计算机视觉研究人员已经开发了几种方法,但他们仍然在与低准确率作斗争。本文提出了一种用于脑肿瘤的自动优化混合深度神经网络(OHDNN)。该方法包括预处理和脑肿瘤分类两个阶段。首先将采集到的数据组成图像,然后对采集到的图像进行预处理,如图像增强和去噪。然后将预处理后的图像送入分类阶段。在分类过程中,本文使用了OHDNN。HDNN是卷积神经网络和长短期记忆(CNN-LSTM)的结合。这里使用CNN分类器生成特征图,使用分类过程LSTM分类器。此外,为了提高CNN-LSTM分类器的性能,利用自适应骑手优化(ARO)算法随机选择分类器中存在的参数。在实验过程中,使用了MRI图像数据集。实验结果表明,该方法的最大精度为97.5。
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