增强胸部X光图像中的多类肺病分类:混合蝠鲼觅食火山爆发算法增强多层感知器神经网络方法。

IF 1.1 3区 计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Rajendran Thavasimuthu, Sudheer Hanumanthakari, Sridhar Sekar, Sakthivel Kirubakaran
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引用次数: 0

摘要

胸部 X 射线是最常用的诊断成像技术之一,可用于识别各种肺部和骨骼相关疾病。深度学习的最新发展已经展示了几个通过胸部 X 光片诊断疾病的成功案例。然而,稳定性和类不平衡问题仍有待解决。因此,本手稿提出了使用混合蝠鲼觅食火山喷发算法增强多层感知器神经网络方法(MPNN-Hyb-MRF-VEA)对胸部X光图像进行多类肺部疾病分类。最初,输入的胸部 X 光图像来自 Covid-Chest X 光数据集。使用各向异性扩散桑原滤波(ADKF)来提高这些图像的质量并降低噪声。为了捕捉重要的鉴别特征,本例采用了基于词频-反文档频率(TF-IDF)的特征提取方法。多层感知器神经网络(MPNN)作为多类肺部疾病分类模型,可将肺部疾病分为 COVID-19、肺炎、肺结核(TB)和正常。为了进一步优化和微调 MPNN 的参数,引入了蝠鲼觅食和火山喷发混合算法(Hyb-MRF-VEA)。Python 平台用于精确评估所提出的方法。与 NFM、SVM 和 CNN 等现有方法相比,拟议方法的准确率分别提高了 23.21%、12.09% 和 5.66%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing multi-class lung disease classification in chest x-ray images: A hybrid manta-ray foraging volcano eruption algorithm boosted multilayer perceptron neural network approach.

One of the most used diagnostic imaging techniques for identifying a variety of lung and bone-related conditions is the chest X-ray. Recent developments in deep learning have demonstrated several successful cases of illness diagnosis from chest X-rays. However, issues of stability and class imbalance still need to be resolved. Hence in this manuscript, multi-class lung disease classification in chest x-ray images using a hybrid manta-ray foraging volcano eruption algorithm boosted multilayer perceptron neural network approach is proposed (MPNN-Hyb-MRF-VEA). Initially, the input chest X-ray images are taken from the Covid-Chest X-ray dataset. Anisotropic diffusion Kuwahara filtering (ADKF) is used to enhance the quality of these images and lower noise. To capture significant discriminative features, the Term frequency-inverse document frequency (TF-IDF) based feature extraction method is utilized in this case. The Multilayer Perceptron Neural Network (MPNN) serves as the classification model for multi-class lung disorders classification as COVID-19, pneumonia, tuberculosis (TB), and normal. A Hybrid Manta-Ray Foraging and Volcano Eruption Algorithm (Hyb-MRF-VEA) is introduced to further optimize and fine-tune the MPNN's parameters. The Python platform is used to accurately evaluate the proposed methodology. The performance of the proposed method provides 23.21%, 12.09%, and 5.66% higher accuracy compared with existing methods like NFM, SVM, and CNN respectively.

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来源期刊
Network-Computation in Neural Systems
Network-Computation in Neural Systems 工程技术-工程:电子与电气
CiteScore
3.70
自引率
1.30%
发文量
22
审稿时长
>12 weeks
期刊介绍: Network: Computation in Neural Systems welcomes submissions of research papers that integrate theoretical neuroscience with experimental data, emphasizing the utilization of cutting-edge technologies. We invite authors and researchers to contribute their work in the following areas: Theoretical Neuroscience: This section encompasses neural network modeling approaches that elucidate brain function. Neural Networks in Data Analysis and Pattern Recognition: We encourage submissions exploring the use of neural networks for data analysis and pattern recognition, including but not limited to image analysis and speech processing applications. Neural Networks in Control Systems: This category encompasses the utilization of neural networks in control systems, including robotics, state estimation, fault detection, and diagnosis. Analysis of Neurophysiological Data: We invite submissions focusing on the analysis of neurophysiology data obtained from experimental studies involving animals. Analysis of Experimental Data on the Human Brain: This section includes papers analyzing experimental data from studies on the human brain, utilizing imaging techniques such as MRI, fMRI, EEG, and PET. Neurobiological Foundations of Consciousness: We encourage submissions exploring the neural bases of consciousness in the brain and its simulation in machines.
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