在membristive crossbar阵列框架中实现FBSE-EWT方法,利用眼底图像自动诊断青光眼

IF 4.9 2区 医学 Q1 ENGINEERING, BIOMEDICAL
Kumari Jyoti , Saurabh Yadav , Chandrabhan Patel , Mayank Dubey , Pradeep Kumar Chaudhary , Ram Bilas Pachori , Shaibal Mukherjee
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引用次数: 0

摘要

全球有超过 22 亿人受到眼部疾病的影响,在印度,青光眼是导致失明的主要原因。早期发现青光眼至关重要,因为青光眼会因液体压力升高而逐渐损伤视神经,导致视力受损。本研究介绍了一种用于青光眼检测和诊断的创新方法,该方法利用基于傅立叶-贝塞尔序列扩展的二维经验小波变换(2D-FBSE-EWT)与忆阻横杆阵列(MCA)模型相结合。所提出的方法利用深度学习和基于 EfficientNetb0 的集合技术将眼底图像分类为正常或青光眼。与其他卷积神经网络(CNN)(如 ResNet50、AlexNet 和 GoogleNet)相比,EfficientNetb0 的表现更为出色,是青光眼分类的最佳选择。最初,数据集使用集成 MCA 与 2D-FBSE-EWT 模型进行处理,重建的图像用于进一步分类。重建图像的评估参数显示了高质量,峰值信噪比(PSNR)为 26.2346 dB,结构相似性指数(SSIM)为 95.38 %。所提出的方法使用 EfficientNetb0 实现了令人印象深刻的 94.15 % 的准确率。此外,与未经处理的数据集相比,该方法的准确度和灵敏度分别提高了 32.14 % 和 40.93 %。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implementation of FBSE-EWT method in memristive crossbar array framework for automated glaucoma diagnosis from fundus images
Ocular disorders affect over 2.2 billion people globally, with glaucoma being a leading cause of blindness in India. Early detection of glaucoma is crucial as it gradually damages the optic nerve due to increased fluid pressure, leading to vision impairment. This study introduces an innovative approach for glaucoma detection and diagnosis, utilizing two-dimensional Fourier-Bessel series expansion-based empirical wavelet transforms (2D-FBSE-EWT) combined with a memristive crossbar array (MCA) model. The proposed method leverages deep learning and an ensemble EfficientNetb0 based technique to classify fundus images as either normal or glaucomatous. EfficientNetb0 outperforms compared to other convolutional neural networks (CNNs) such as ResNet50, AlexNet, and GoogleNet, making it the optimal choice for glaucoma classification. Initially, the dataset was processed using the integrated MCA with 2D-FBSE-EWT model, and the reconstructed images were used for further classification. The assessment parameters of the reconstructed images demonstrated high quality, with peak signal-to-noise ratio (PSNR) of 26.2346 dB and structural similarity index (SSIM) of 95.38 %. The proposed method achieved an impressive accuracy of 94.15 % using EfficientNetb0. Additionally, it enhanced accuracy and sensitivity by 32.14 % and 40.93 %, respectively, compared to the unprocessed dataset.
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来源期刊
Biomedical Signal Processing and Control
Biomedical Signal Processing and Control 工程技术-工程:生物医学
CiteScore
9.80
自引率
13.70%
发文量
822
审稿时长
4 months
期刊介绍: Biomedical Signal Processing and Control aims to provide a cross-disciplinary international forum for the interchange of information on research in the measurement and analysis of signals and images in clinical medicine and the biological sciences. Emphasis is placed on contributions dealing with the practical, applications-led research on the use of methods and devices in clinical diagnosis, patient monitoring and management. Biomedical Signal Processing and Control reflects the main areas in which these methods are being used and developed at the interface of both engineering and clinical science. The scope of the journal is defined to include relevant review papers, technical notes, short communications and letters. Tutorial papers and special issues will also be published.
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