Modified PNN classifier for diagnosing skin cancer severity condition using SMO optimization technique

Q3 Engineering
J. Rajeshwari, M. Sughasiny
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引用次数: 0

Abstract

Skin cancer is a pandemic disease now worldwide, and it is responsible for numerous deaths. Early phase detection is pre-eminent for controlling the spread of tumours throughout the body. However, existing algorithms for skin cancer severity detections still have some drawbacks, such as the analysis of skin lesions is not insignificant, slightly worse than that of dermatologists, and costly and time-consuming. Various machine learning algorithms have been used to detect the severity of the disease diagnosis. But it is more complex when detecting the disease. To overcome these issues, a modified Probabilistic Neural Network (MPNN) classifier has been proposed to determine the severity of skin cancer. The proposed method contains two phases such as training and testing the data. The collected features from the data of infected people are used as input to the modified PNN classifier in the current model. The neural network is also trained using Spider Monkey Optimization (SMO) approach. For analyzing the severity level, the classifier predicts four classes. The degree of skin cancer is determined depending on classifications. According to findings, the system achieved a 0.10% False Positive Rate (FPR), 0.03% error and 0.98% accuracy, while previous methods like KNN, NB, RF and SVM have accuracies of 0.90%, 0.70%, 0.803% and 0.86% correspondingly, which is lesser than the proposed approach.
基于SMO优化技术的改进PNN分类器诊断皮肤癌严重程度
皮肤癌现在是世界范围内的一种流行病,它造成了许多人的死亡。早期检测对于控制肿瘤在全身的扩散是非常重要的。然而,现有的皮肤癌严重程度检测算法仍然存在一些缺陷,例如对皮肤病变的分析并非微不足道,比皮肤科医生的分析略差,并且成本高且耗时长。各种机器学习算法已被用于检测疾病诊断的严重程度。但在检测这种疾病时,情况就复杂多了。为了克服这些问题,提出了一种改进的概率神经网络(MPNN)分类器来确定皮肤癌的严重程度。该方法包括训练和测试两个阶段。从感染者的数据中收集到的特征被用作当前模型中改进的PNN分类器的输入。神经网络也使用蜘蛛猴优化(SMO)方法进行训练。为了分析严重程度,分类器预测了四类。皮肤癌的程度取决于分类。结果表明,该系统的误报率(False Positive Rate, FPR)为0.10%,误差为0.03%,准确率为0.98%,而以往的KNN、NB、RF和SVM方法的准确率分别为0.90%、0.70%、0.803%和0.86%,均低于本文提出的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
AIMS Electronics and Electrical Engineering
AIMS Electronics and Electrical Engineering Engineering-Control and Systems Engineering
CiteScore
2.40
自引率
0.00%
发文量
19
审稿时长
8 weeks
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