Retracing-efficient IoT model for identifying the skin-related tags using automatic lumen detection

IF 0.9 4区计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Intelligent Data Analysis Pub Date : 2023-08-31 DOI:10.3233/ida-237442

G.N. Vivekananda, Saman M. Almufti, C. Suresh, Salomi Samsudeen, Mohanarangan Veerapperumal Devarajan, R. Srikanth, S. Jayashree

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引用次数: 0

Abstract

The number of patients with skin diseases reported a dramatic increase which is a major concern and should be addressed. The evaluation of skin is crucial to the correct diagnosis during the follow-up. Through technological advances and partnership, skin disorders can be identified and predicted. PROBLEM: The manual detection of skin diseases may sometimes lead to misclassification due to the same intensity and color levels, which is crucial to the correct diagnosis. SOLUTION: An automated system to identify these skin diseases is applied. An IoT-based skin monitoring infrastructure is imposed that links the entire system. METHOD: In this study, a Retracing-efficient IoT model for identifying the moles, skin tags, and warts using Automatic lumen detection with the help of IoT-based Variation regularity is proposed with the technique imposed IoMT, Automatic lumen detection, Variation regularity, and trigonometric algorithm. RESULTS: The intensity and edge width based on moles, skin tags, and warts edge width heightened intensity accuracy is 56.2% on the image group with image count is 500 to 10000, and the enhanced low-level total sample accuracy is 95.9%. The pixel analysis for intensity with wavelength and intensity with time wavelength is improved from 4.2% to 54.6%, and accuracy is 70.9% formulated. Periodic classification on image count and classification accuracy image count is 87% against the 500 to 10000 image. Correlation performance analysis of lumen detection resolution image pixel and enhanced correlation performance accuracy is 23.50% on the 480 × 640 to 2336 × 3504 pixel images. CONCLUSION: The approach is tested for varying datasets, and comparative analysis is performed that reflects the effectiveness of the proposed system with high accuracy, thus contributing to the development of a perfect platform for skincare to the early detection and diagnosis of skin conditions.

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使用自动流明检测识别皮肤相关标签的追溯高效物联网模型

据报告，皮肤病患者人数急剧增加，这是一个主要问题，应该加以解决。在随访期间，皮肤评估对正确诊断至关重要。通过技术进步和合作，可以识别和预测皮肤疾病。问题：由于相同的强度和颜色水平，手动检测皮肤病有时可能会导致错误分类，这对正确诊断至关重要。解决方案：应用一个自动系统来识别这些皮肤疾病。基于物联网的皮肤监测基础设施连接了整个系统。方法：在本研究中，利用IoMT、自动管腔检测、变异规律和三角算法等技术，提出了一种利用基于物联网的变异规律，使用自动管腔检测来识别痣、皮肤标签和疣的递归有效物联网模型。结果：在图像计数为500至10000的图像组中，基于痣、皮肤标签和疣的强度和边缘宽度增强的强度准确率为56.2%，增强的低水平总样本准确率为95.9%。随波长强度和随时间波长强度的像素分析从4.2%提高到54.6%，公式化的准确率为70.9%。在图像计数和分类准确度上的周期性分类图像计数相对于500到10000图像为87%。在480×640至2336×3504像素的图像上，管腔检测分辨率图像像素的相关性能分析和增强的相关性能准确率为23.50%。结论：该方法在不同的数据集上进行了测试，并进行了比较分析，高精度地反映了所提出系统的有效性，从而有助于开发一个完美的护肤平台，用于皮肤状况的早期检测和诊断。

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来源期刊

Intelligent Data Analysis 工程技术-计算机：人工智能

CiteScore

2.20

自引率

5.90%

发文量

审稿时长

3.3 months

期刊介绍： Intelligent Data Analysis provides a forum for the examination of issues related to the research and applications of Artificial Intelligence techniques in data analysis across a variety of disciplines. These techniques include (but are not limited to): all areas of data visualization, data pre-processing (fusion, editing, transformation, filtering, sampling), data engineering, database mining techniques, tools and applications, use of domain knowledge in data analysis, big data applications, evolutionary algorithms, machine learning, neural nets, fuzzy logic, statistical pattern recognition, knowledge filtering, and post-processing. In particular, papers are preferred that discuss development of new AI related data analysis architectures, methodologies, and techniques and their applications to various domains.