Novel multiple pooling and local phase quantization stable feature extraction techniques for automated classification of brain infarcts

Doğan, Şengül; Barua, Prabal Datta; Bayğın, Mehmet; Chakraborty, Subrata; Ciaccio, Edward J.; Tuncer, Türker; Kadir, Khairul Azmi Abd; Shah, Mohammad Nazri Md; Azman, Raja Rizal; Lee, Chin Chew; Ng, Kwan Hoong; Acharya, U. Rajendra

doi:10.1016/j.bbe.2022.06.004

Cited by 8 publications

(1 citation statement)

References 38 publications

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“…This study opens with a discussion of cosmic mythology and examines how learning environments that consider student’s skills and requirements can be combined with the appropriate assistive technology to deliver effective e-learning experiences and reliable instructional resources. The Ontology Web Language, a data-handling framework that enables programmers to handle both the substance and the introduction of the data available on the web, was used to generate the metaphysics used in this evaluation [ 21 ]. The methodology was designed and implemented to help identify the fundamental problems that may affect students learning to read or write and problems that may then lead to further problems with memory cognition.…”

Section: Literature Reviewmentioning

confidence: 99%

A Novel Blunge Calibration Intelligent Feature Classification Model for the Prediction of Hypothyroid Disease

Devi

Kumar

Brezulianu

et al. 2023

Sensors

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According to the Indian health line report, 12% of the population suffer from abnormal thyroid functioning. The major challenge in this disease is that the existence of hypothyroid may not propagate any noticeable symptoms in its early stages. However, delayed treatment of this disease may lead to several other health problems, such as fertility issues and obesity. Therefore, early treatment is essential for patient survival. The proposed technology could be used for the prediction of hypothyroid disease and its severity during its early stages. Though several classification and regression algorithms are available for the prediction of hypothyroid using clinical information, there exists a gap in knowledge as to whether predicted outcomes may reach a higher accuracy or not. Therefore, the objective of this research is to predict the existence of hypothyroidism with higher accuracy by optimizing the estimator list of the pycaret classifier model. With this overview, a blunge calibration intelligent feature classification model that supports the assessment of the presence of hypothyroidism with high accuracy is proposed. A hypothyroidism dataset containing 3163 patient details with 23 independent and one dependent feature from the University of California Irvine (UCI) machine-learning repository was used for this work. We undertook dataset preprocessing and determined its incomplete values. Exploratory data analysis was performed to analyze all the clinical parameters and the extent to which each feature supports the prediction of hypothyroidism. ANOVA was used to verify the F-statistic values of all attributes that might highly influence the target. Then, hypothyroidism was predicted using various classifier algorithms, and the performance metrics were analyzed. The original dataset was subjected to dimensionality reduction by using regressor and classifier feature-selection algorithms to determine the best subset components for predicting hypothyroidism. The feature-selected subset of the clinical parameters was subjected to various classifier algorithms, and its performance was analyzed. The system was implemented with python in the Spyder editor of Anaconda Navigator IDE. Investigational results show that the Gaussian naive Bayes, AdaBoost classifier, and Ridge classifier maintained the accuracy of 89.5% for the regressor feature-selection methods. The blunge calibration regression model (BCRM) was designed with naive Bayes, AdaBoost, and Ridge as the estimators with accuracy optimization and with soft blending based on the sum of predicted probabilities of classifiers. The proposed BCRM showed 99.5% accuracy in predicting hypothyroidism. The implementation results show that the Kernel SVM, KNeighbor, and Ridge classifier maintained an accuracy of 87.5% for the classifier feature-selection methods. The blunge calibration classifier model (BCCM) was developed with Kernel SVM, KNeighbor, and Ridge as the estimators, with accuracy optimization and with soft blending based on the sum of predicted probabilities of classifiers. The proposed BCCM showed 99.7% accuracy in predicting hypothyroidism. The main contribution of this research is the design of BCCM and BCRM models that were built with accuracy optimization with soft blending based on the sum of predicted probabilities of classifiers. The BCRM and BCCM models uniqueness’s are achieved by updating the estimators list with the effective classifiers and regressors that suit the application at runtime.

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Section: Literature Reviewmentioning

confidence: 99%