M. L. Sworna Kokila, E. Fenil, N. P. Ponnuviji, G. Nirmala
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引用次数: 0
摘要
云计算是处理快速增长的数据的先进技术之一。同时,由于电子病历的不断增加,大量数字医疗数据的存储空间需求也在不断扩大。这影响了云计算外包方法的应用。外包到云空间的数据必须高度安全。为此,本文提出了一种基于双核支持向量(DKS)和基于交叉的野马优化算法的 DKS-CWH 算法。本文的输入灰度图像来自医学 MINST 数据集,该数据集包括 58 954 张图像,由 CXR(胸部 X 光)、乳腺 MRI、腹部 CT、胸部 CT、手部(手部 X 光)和头部 CT 六类图像组成。使用 DKS-CWH 算法在云层执行分类和特征提取过程。DKS 方法的超参数采用基于交叉的 WHO 算法进行优化。性能评估包括根据精确度、准确度、召回率和 F1 分数等重要指标分析其有效性,并将输出结果与其他有效方法进行比较。结果表明,DKS-CWH 模型的准确率高达 97%,性能稳定。
Securing cloud-based medical data: an optimal dual kernal support vector approach for enhanced EHR management
Cloud computing is one of the advanced technologies to process rapidly growing data. At the same instant, the necessity of storage space for the voluminous digital medical data has been amplified thanks to the mounting electronic health records. It influences the employment of cloud outsourcing methodology. Data outsourced to the cloud space must be highly secured. For this, the paper presents a DKS-CWH algorithm that is based on a dual kernal support vector (DKS) and crossover-based wild horse optimization algorithm. In this paper, the input grayscale images are gathered from the medical MINST dataset which includes 58,954 images comprising six classes of CXR (chest X-ray), breast MRI, abdomen CT, chest CT, hand (hand X-ray), and head CT. The classification and feature extraction processes are performed at the cloud layer using the DKS-CWH algorithm. The hyperparameters of the DKS approach are optimized with the crossover-based WHO algorithm. The performance evaluation involves analyzing its effectiveness according to prominent metrics such as precision, accuracy, recall, and F1-score and comparing the outputs with the other competent methods. The results showed the DKS-CWH model offered robust performance with 97% accuracy.
期刊介绍:
This Journal is established with a view to cater to increased awareness for high quality research in the seamless integration of heterogeneous technologies to formulate bankable solutions to the emergent complex engineering problems.
Assurance engineering could be thought of as relating to the provision of higher confidence in the reliable and secure implementation of a system’s critical characteristic features through the espousal of a holistic approach by using a wide variety of cross disciplinary tools and techniques. Successful realization of sustainable and dependable products, systems and services involves an extensive adoption of Reliability, Quality, Safety and Risk related procedures for achieving high assurancelevels of performance; also pivotal are the management issues related to risk and uncertainty that govern the practical constraints encountered in their deployment. It is our intention to provide a platform for the modeling and analysis of large engineering systems, among the other aforementioned allied goals of systems assurance engineering, leading to the enforcement of performance enhancement measures. Achieving a fine balance between theory and practice is the primary focus. The Journal only publishes high quality papers that have passed the rigorous peer review procedure of an archival scientific Journal. The aim is an increasing number of submissions, wide circulation and a high impact factor.
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