RETRACTED ARTICLE: A novel method for prediction of skin disease through supervised classification techniques

Skin diseases are the most important worrying problems in societies because it affects the patients both physically and psychologically. Skin disease is one of the highly prone to risk with an association of climatic factors around the world. Predicting the skin disease cases associated with influen...

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Bibliographic Details
Published in:Soft computing (Berlin, Germany) Germany), 2022-10, Vol.26 (19), p.10527-10533
Main Authors: Meena, K., Veni, N. N. Krishna, Deepapriya, B. S., Vardhini, P. A. Harsha, Kalyani, B. J. D., Sharmila, L.
Format: Article
Language:English
Subjects:
Accuracy
Acne
Algorithms
Application of Soft Computing
Artificial Intelligence
Availability
Classification
Climate change
Computational Intelligence
Control
Datasets
Dermatology
Engineering
Feature extraction
Feature selection
Females
Hospitals
Humidity
Machine learning
Mathematical Logic and Foundations
Mechatronics
Parameter identification
Precipitation
Predictions
Radiation
Real time
Robotics
Skin diseases
Support vector machines
Time measurement
Tropical diseases
Ulcers
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Summary:Skin diseases are the most important worrying problems in societies because it affects the patients both physically and psychologically. Skin disease is one of the highly prone to risk with an association of climatic factors around the world. Predicting the skin disease cases associated with influencing factors is the most crucial task. It is very difficult task to identify the appropriate and optimal features for skin disease from the large volume of health sector data available in the world. Previous researchers applied different types of ensemble features selection techniques for the appropriate selection of features which gives highest accuracy with minimum computation time. Classification rate of any algorithm depends on feature extraction techniques and classifier used for classification purpose. Data availability is one of the most significant drawbacks in the health sector if data are available that might be in raw format. Filling missing value and type conversion almost takes 70% of the time. The missing value can be addressed by statistical parameters such as mean, average and median with stand mechanism in machine learning. The objective of this paper is the selection of significant attributes and removes irrelevant features that affect model performance. The performance of skin disease data can be experimented through K-nearest neighbor, support vector machine and random forest classifier. The entire research is carried out on the real-time dataset. The efficiency of the proposed approach is measured through confusion matrix, accuracy, F-measure, precision and recall.
ISSN:1432-7643
1433-7479
DOI:10.1007/s00500-022-07435-8