Inherently interpretable time series classification via multiple instance learning
Inherently interpretable time series classification via multiple instance learning
Conventional Time Series Classification (TSC) methods are often black boxes that obscure inherent interpretation of their decision-making processes. In this work, we leverage Multiple Instance Learning (MIL) to overcome this issue, and propose a new framework called MILLET: Multiple Instance Learning for Locally Explainable Time series classification. We apply MILLET to existing deep learning TSC models and show how they become inherently interpretable without compromising (and in some cases, even improving) predictive performance. We evaluate MILLET on 85 UCR TSC datasets and also present a novel synthetic dataset that is specially designed to facilitate interpretability evaluation. On these datasets, we show MILLET produces sparse explanations quickly that are of higher quality than other well-known interpretability methods. To the best of our knowledge, our work with MILLET, which is available on GitHub (https://github.com/JAEarly/MILTimeSeriesClassification), is the first to develop general MIL methods for TSC and apply them to an extensive variety of domains
cs.LG, cs.AI
Early, Joseph
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Cheung, Gavin K.C.
63cdd97a-f9a3-4305-8dce-8d4f2d837e76
Cutajar, Kurt
7ec234e3-c1d5-4e29-aceb-4d7a34e64068
Xie, Hanting
1e7fbad3-0ad2-4d71-94c6-97a2a32a2b11
Kandola, Jas
7f429228-0b7c-4d85-a006-7ec21af3b156
Twomey, Niall
0173c13c-19da-46e0-9507-ac48755ce593
Early, Joseph
fd4e9e4c-9251-474d-a9cf-12157a9f2f73
Cheung, Gavin K.C.
63cdd97a-f9a3-4305-8dce-8d4f2d837e76
Cutajar, Kurt
7ec234e3-c1d5-4e29-aceb-4d7a34e64068
Xie, Hanting
1e7fbad3-0ad2-4d71-94c6-97a2a32a2b11
Kandola, Jas
7f429228-0b7c-4d85-a006-7ec21af3b156
Twomey, Niall
0173c13c-19da-46e0-9507-ac48755ce593
[Unknown type: UNSPECIFIED]
Abstract
Conventional Time Series Classification (TSC) methods are often black boxes that obscure inherent interpretation of their decision-making processes. In this work, we leverage Multiple Instance Learning (MIL) to overcome this issue, and propose a new framework called MILLET: Multiple Instance Learning for Locally Explainable Time series classification. We apply MILLET to existing deep learning TSC models and show how they become inherently interpretable without compromising (and in some cases, even improving) predictive performance. We evaluate MILLET on 85 UCR TSC datasets and also present a novel synthetic dataset that is specially designed to facilitate interpretability evaluation. On these datasets, we show MILLET produces sparse explanations quickly that are of higher quality than other well-known interpretability methods. To the best of our knowledge, our work with MILLET, which is available on GitHub (https://github.com/JAEarly/MILTimeSeriesClassification), is the first to develop general MIL methods for TSC and apply them to an extensive variety of domains
Text
2311.10049v1
- Author's Original
Available under License Other.
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e-pub ahead of print date: 16 November 2023
Additional Information:
Preprint. Under submission at ICLR 2024
Keywords:
cs.LG, cs.AI
Identifiers
Local EPrints ID: 484681
URI: http://eprints.soton.ac.uk/id/eprint/484681
PURE UUID: 982343ea-d9f8-4a83-94b3-0982dec9fd89
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Date deposited: 20 Nov 2023 17:41
Last modified: 07 Jun 2024 01:57
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Contributors
Author:
Joseph Early
Author:
Gavin K.C. Cheung
Author:
Kurt Cutajar
Author:
Hanting Xie
Author:
Jas Kandola
Author:
Niall Twomey
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