The great multivariate time series classification bake off: a review and experimental evaluation of recent algorithmic advances
The great multivariate time series classification bake off: a review and experimental evaluation of recent algorithmic advances
Time Series Classification (TSC) involves building predictive models for a discrete target variable from ordered, real valued, attributes. Over recent years, a new set of TSC algorithms have been developed which have made significant improvement over the previous state of the art. The main focus has been on univariate TSC, i.e. the problem where each case has a single series and a class label. In reality, it is more common to encounter multivariate TSC (MTSC) problems where the time series for a single case has multiple dimensions. Despite this, much less consideration has been given to MTSC than the univariate case. The UCR archive has provided a valuable resource for univariate TSC, and the lack of a standard set of test problems may explain why there has been less focus on MTSC. The UEA archive of 30 MTSC problems released in 2018 has made comparison of algorithms easier. We review recently proposed bespoke MTSC algorithms based on deep learning, shapelets and bag of words approaches. If an algorithm cannot naturally handle multivariate data, the simplest approach to adapt a univariate classifier to MTSC is to ensemble it over the multivariate dimensions. We compare the bespoke algorithms to these dimension independent approaches on the 26 of the 30 MTSC archive problems where the data are all of equal length. We demonstrate that four classifiers are significantly more accurate than the benchmark dynamic time warping algorithm and that one of these recently proposed classifiers, ROCKET, achieves significant improvement on the archive datasets in at least an order of magnitude less time than the other three.
401-449
Ruiz, Alejandro Pasos
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Flynn, Michael
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Large, James
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Middlehurst, Matthew
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Bagnall, Anthony
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Ruiz, Alejandro Pasos
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Flynn, Michael
c69bd971-7817-4b72-951f-0bc694a8ebaa
Large, James
ebc9735e-259c-492d-946c-84bf78d4dbac
Middlehurst, Matthew
44ae267d-b9ec-42b2-b818-d901b221daf9
Bagnall, Anthony
d31e6506-2a00-4358-ba3f-baefd48d59d8
Ruiz, Alejandro Pasos, Flynn, Michael, Large, James, Middlehurst, Matthew and Bagnall, Anthony
(2020)
The great multivariate time series classification bake off: a review and experimental evaluation of recent algorithmic advances.
Data Mining and Knowledge Discovery, 35, .
(doi:10.1007/s10618-020-00727-3).
Abstract
Time Series Classification (TSC) involves building predictive models for a discrete target variable from ordered, real valued, attributes. Over recent years, a new set of TSC algorithms have been developed which have made significant improvement over the previous state of the art. The main focus has been on univariate TSC, i.e. the problem where each case has a single series and a class label. In reality, it is more common to encounter multivariate TSC (MTSC) problems where the time series for a single case has multiple dimensions. Despite this, much less consideration has been given to MTSC than the univariate case. The UCR archive has provided a valuable resource for univariate TSC, and the lack of a standard set of test problems may explain why there has been less focus on MTSC. The UEA archive of 30 MTSC problems released in 2018 has made comparison of algorithms easier. We review recently proposed bespoke MTSC algorithms based on deep learning, shapelets and bag of words approaches. If an algorithm cannot naturally handle multivariate data, the simplest approach to adapt a univariate classifier to MTSC is to ensemble it over the multivariate dimensions. We compare the bespoke algorithms to these dimension independent approaches on the 26 of the 30 MTSC archive problems where the data are all of equal length. We demonstrate that four classifiers are significantly more accurate than the benchmark dynamic time warping algorithm and that one of these recently proposed classifiers, ROCKET, achieves significant improvement on the archive datasets in at least an order of magnitude less time than the other three.
Text
s10618-020-00727-3
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Accepted/In Press date: 25 November 2020
e-pub ahead of print date: 18 December 2020
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Local EPrints ID: 495341
URI: http://eprints.soton.ac.uk/id/eprint/495341
ISSN: 1384-5810
PURE UUID: 3cf3e53a-094c-41e6-a82a-66a1bc4128dd
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Date deposited: 11 Nov 2024 17:43
Last modified: 12 Nov 2024 03:14
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Author:
Alejandro Pasos Ruiz
Author:
Michael Flynn
Author:
James Large
Author:
Matthew Middlehurst
Author:
Anthony Bagnall
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