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Classification of mild Parkinson’s disease: data augmentation of time-series gait data obtained via inertial measurement units

Hirotaka Uchitomi, Xianwen Ming, Changyu Zhao, Taiki Ogata, Yoshihiro Miyake

2023Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Data-augmentation methods have emerged as a viable approach for improving the state-of-the-art performances for classifying mild Parkinson's disease using deep learning with time-series data from an inertial measurement unit, considering the limited amount of training datasets available in the medical field. This study investigated effective data-augmentation methods to classify mild Parkinson's disease and healthy participants with deep learning using a time-series gait dataset recorded via a shank-worn inertial measurement unit. Four magnitude-domain-transformation and three time-domain-transformation data-augmentation methods, and four methods involving mixtures of the aforementioned methods were applied to a representative convolutional neural network for the classification, and their performances were compared. In terms of data-augmentation, compared with baseline classification accuracy without data-augmentation, the magnitude-domain transformation performed better than the time-domain transformation and mixed-data augmentation. In the magnitude-domain transformation, the rotation method significantly contributed to the best performance improvement, yielding accuracy and F1-score improvements of 5.5 and 5.9%, respectively. The augmented data could be varied while maintaining the features of the time-series data obtained via the sensor for detecting mild Parkinson's in gait; this data attribute may have caused the aforementioned trend. Notably, the selection of appropriate data extensions will help improve the classification performance for mild Parkinson's disease.

Topics & Concepts

GaitParkinson's diseaseSeries (stratigraphy)Physical medicine and rehabilitationInertial frame of referenceInertial measurement unitComputer scienceMedicineDiseaseArtificial intelligenceInternal medicineBiologyPhysicsPaleontologyQuantum mechanicsParkinson's Disease Mechanisms and TreatmentsBalance, Gait, and Falls PreventionCerebral Palsy and Movement Disorders
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