Your search keyword '"Han Byul Kim"' showing total 2 results

1. High-accuracy automatic classification of Parkinsonian tremor severity using machine learning method

Author

Hyeyoung Park, Hong Ji Lee, Sang Kyong Kim, Beomseok Jeon, Hyoseon Jeon, Kwang Suk Park, Han Byul Kim, and Woong-Woo Lee

Subjects

Male, Physiology, Computer science, Rest, 0206 medical engineering, Acceleration, Posture, Biomedical Engineering, Biophysics, Decision tree, Feature selection, 02 engineering and technology, Accelerometer, Machine learning, computer.software_genre, Machine Learning, 03 medical and health sciences, Automation, Wearable Electronic Devices, 0302 clinical medicine, Rating scale, Physiology (medical), Tremor, Feature (machine learning), Humans, Aged, business.industry, Parkinson Disease, Signal Processing, Computer-Assisted, Postural tremor, Linear discriminant analysis, 020601 biomedical engineering, nervous system diseases, Support vector machine, Female, Artificial intelligence, business, computer, 030217 neurology & neurosurgery

Abstract

Motivation: Although clinical aspirations for new technology to accurately measure and diagnose Parkinsonian tremors exist, automatic scoring of tremor severity using machine learning approaches has not yet been employed. Objective: This study aims to maximize the scientific validity of automatic tremor-severity classification using machine learning algorithms to score Parkinsonian tremor severity in the same manner as the unified Parkinson's disease rating scale (UPDRS) used to rate scores in real clinical practice. Approach: Eighty-five PD patients perform four tasks for severity assessment of their resting, resting with mental stress, postural, and intention tremors. The tremor signals are measured using a wristwatch-type wearable device with an accelerometer and gyroscope. Displacement and angle signals are obtained by integrating the acceleration and angular-velocity signals. Nineteen features are extracted from each of the four tremor signals. The optimal feature configuration is decided using the wrapper feature selection algorithm or principal component analysis, and decision tree, support vector machine, discriminant analysis, and k-nearest neighbour algorithms are considered to develop an automatic scoring system for UPDRS prediction. The results are compared to UPDRS ratings assigned by two neurologists. Main results: The highest accuracies are 92.3%, 86.2%, 92.1%, and 89.2% for resting, resting with mental stress, postural, and intention tremors, respectively. The weighted Cohen's kappa values are 0.745, 0.635 and 0.633 for resting, resting with mental stress, and postural tremors (almost perfect agreement), and 0.570 for intention tremors (moderate). Significance: These results indicate the feasibility of the proposed system as a clinical decision tool for Parkinsonian tremor-severity automatic scoring.

Published

2017

2. High-accuracy automatic classification of Parkinsonian tremor severity using machine learning method.

Author

Hyoseon Jeon, Woongwoo Lee, Hyeyoung Park, Hong Ji Lee, Sang Kyong Kim, Han Byul Kim, Beomseok Jeon, and Kwang Suk Park

Subjects

PARKINSONIAN disorders, TREMOR, MACHINE learning, ALGORITHMS, PARKINSON'S disease, RATING, DIAGNOSIS

Abstract

Motivation: Although clinical aspirations for new technology to accurately measure and diagnose Parkinsonian tremors exist, automatic scoring of tremor severity using machine learning approaches has not yet been employed. Objective: This study aims to maximize the scientific validity of automatic tremor-severity classification using machine learning algorithms to score Parkinsonian tremor severity in the same manner as the unified Parkinson’s disease rating scale (UPDRS) used to rate scores in real clinical practice. Approach: Eighty-five PD patients perform four tasks for severity assessment of their resting, resting with mental stress, postural, and intention tremors. The tremor signals are measured using a wristwatch-type wearable device with an accelerometer and gyroscope. Displacement and angle signals are obtained by integrating the acceleration and angular-velocity signals. Nineteen features are extracted from each of the four tremor signals. The optimal feature configuration is decided using the wrapper feature selection algorithm or principal component analysis, and decision tree, support vector machine, discriminant analysis, and k-nearest neighbour algorithms are considered to develop an automatic scoring system for UPDRS prediction. The results are compared to UPDRS ratings assigned by two neurologists. Main results: The highest accuracies are 92.3%, 86.2%, 92.1%, and 89.2% for resting, resting with mental stress, postural, and intention tremors, respectively. The weighted Cohen’s kappa values are 0.745, 0.635 and 0.633 for resting, resting with mental stress, and postural tremors (almost perfect agreement), and 0.570 for intention tremors (moderate). Significance: These results indicate the feasibility of the proposed system as a clinical decision tool for Parkinsonian tremor-severity automatic scoring. [ABSTRACT FROM AUTHOR]

Published

2017