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Autori principali: Ilbert, Romain, Hoang, Thai V., Zhang, Zonghua
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.06518
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author Ilbert, Romain
Hoang, Thai V.
Zhang, Zonghua
author_facet Ilbert, Romain
Hoang, Thai V.
Zhang, Zonghua
contents Our study investigates the impact of data augmentation on the performance of multivariate time series models, focusing on datasets from the UCR archive. Despite the limited size of these datasets, we achieved classification accuracy improvements in 10 out of 13 datasets using the Rocket and InceptionTime models. This highlights the essential role of sufficient data in training effective models, paralleling the advancements seen in computer vision. Our work delves into adapting and applying existing methods in innovative ways to the domain of multivariate time series classification. Our comprehensive exploration of these techniques sets a new standard for addressing data scarcity in time series analysis, emphasizing that diverse augmentation strategies are crucial for unlocking the potential of both traditional and deep learning models. Moreover, by meticulously analyzing and applying a variety of augmentation techniques, we demonstrate that strategic data enrichment can enhance model accuracy. This not only establishes a benchmark for future research in time series analysis but also underscores the importance of adopting varied augmentation approaches to improve model performance in the face of limited data availability.
format Preprint
id arxiv_https___arxiv_org_abs_2406_06518
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Data Augmentation for Multivariate Time Series Classification: An Experimental Study
Ilbert, Romain
Hoang, Thai V.
Zhang, Zonghua
Machine Learning
Our study investigates the impact of data augmentation on the performance of multivariate time series models, focusing on datasets from the UCR archive. Despite the limited size of these datasets, we achieved classification accuracy improvements in 10 out of 13 datasets using the Rocket and InceptionTime models. This highlights the essential role of sufficient data in training effective models, paralleling the advancements seen in computer vision. Our work delves into adapting and applying existing methods in innovative ways to the domain of multivariate time series classification. Our comprehensive exploration of these techniques sets a new standard for addressing data scarcity in time series analysis, emphasizing that diverse augmentation strategies are crucial for unlocking the potential of both traditional and deep learning models. Moreover, by meticulously analyzing and applying a variety of augmentation techniques, we demonstrate that strategic data enrichment can enhance model accuracy. This not only establishes a benchmark for future research in time series analysis but also underscores the importance of adopting varied augmentation approaches to improve model performance in the face of limited data availability.
title Data Augmentation for Multivariate Time Series Classification: An Experimental Study
topic Machine Learning
url https://arxiv.org/abs/2406.06518