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AIoT-based embedded systems optimization using feature selection for Parkinson's disease diagnosis through speech disorders

Shawki Saleh, Zakaria Alouani, Othmane Daanouni, Soufiane Hamida, Bouchaib Cherradi, Omar Bouattane

2024Intelligence-Based Medicine14 citationsDOIOpen Access PDF

Abstract

This study aims to build a pre-diagnosis tool for predicting Parkinson's disease based on a speech disorder which appears as a symptom in approximately 90 % of people with this disease. Recently, some technologies such as AIoT and IoMT aim to integrate Artificial Intelligence and the Internet of Things or Internet of Medical Things to provide an intelligent remote diagnosis for enhancing medical services. Thus, the classification speed and reliability of the systems in these fields are highly recommended. In this work, we compared five ML algorithms (LR, RF, XGB, SVM, KNN) based on their performance, classification speed and reliability. We employed the sequential forward feature selection in order to select the optimal relevant feature for reducing the dimensionality of the used acoustic dataset to enhance both the performance and computation cost for the proposed system. Furthermore, the stratified cross-validation approach has been used to obtain a fair estimation for the proposed system across each point in the dataset. In this paper, we used a vocal dataset of Parkinson's disease consisting of 195 samples and 22 features. We found that 10 features provide the optimal performance. So, we proposed the K-Nearest Neighbours algorithm as a classifier for our system. It reached 98.46 %, 99.33 % and 98.67 % of the accuracy, sensitivity and precision respectively. Moreover, this work provides a detailed explanation of the employed techniques and the obtained results. The novelty of this work, compared to the existing literature, is to enhance both computation cost and performance for building a real-world system to diagnose Parkinson's disease through speech disorder. • Propose a healthcare embedded system for early Parkinson's disease diagnosis through speech disorder. • Propose feature selection solutions to enhance performance, minimize computation costs, and conserve storage. • Providing a fair estimation for the proposed system using stratified cross-validation. • Summarize the criteria for developing light, streamlined, and reliable healthcare embedded systems. • Compare the system and its performance with the state-of-the art of the literature.

Topics & Concepts

Feature selectionParkinson's diseaseFeature (linguistics)Selection (genetic algorithm)DiseaseComputer scienceSpeech disorderArtificial intelligenceSpeech recognitionMedicineAudiologyPathologyLinguisticsPhilosophyVoice and Speech DisordersSpeech Recognition and SynthesisDysphagia Assessment and Management