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Encoding methods comparison for stress detection

Encoding methods comparison for stress detection
Encoding methods comparison for stress detection

Stress is a prevalent and growing phenomenon in the modern world that could lead to significant physical issues, both physical and mental health. Analyzing physiological signals collected from wearable sensors using artificial intelligence methods has emerged as a promising approach to predicting and managing stress. However, conventional models for time series analysis are RNN architectures and encounter challenges like high computational costs and issues with vanishing or exploding gradients. Inspired by the success of deep learning methods in computer vision, several studies have proposed transforming time series into images by applying encoding time series algorithms. This work intends to compare three time-series encoding methods: Gramian Angular Field (GAF), both summation and difference, Markovian Transition Field (MTF) and Recurrent Plot (RP) in the stress detection scenario. We employ two architectures, VGG-16 and ResNet, based on Convolutional Neural Network (CNN), to evaluate the performance of these methods on a public dataset, WESAD. Our results demonstrate that the GAF encoding method proves to be the most effective for classifying physiological signals related to stress.

Convolutional Neural Network, Time Series Encoding, VGG-16 architecture
311-320
Serenelli, Marco
7cd1c715-0c56-47e5-a83e-bdb4cb102114
Quadrini, Michela
ebc1cdb8-dc5a-4eeb-89ff-9a0592a4cf8d
Óskarsdóttir, Maria
d159ed8f-9dd3-4ff3-8b00-d43579ab71be
Loreti, Michele
33c38853-a551-402c-8126-6f68c11a9f75
Serenelli, Marco
7cd1c715-0c56-47e5-a83e-bdb4cb102114
Quadrini, Michela
ebc1cdb8-dc5a-4eeb-89ff-9a0592a4cf8d
Óskarsdóttir, Maria
d159ed8f-9dd3-4ff3-8b00-d43579ab71be
Loreti, Michele
33c38853-a551-402c-8126-6f68c11a9f75

Serenelli, Marco, Quadrini, Michela, Óskarsdóttir, Maria and Loreti, Michele (2024) Encoding methods comparison for stress detection. 3rd AIxIA Workshop on Artificial Intelligence For Healthcare, HC@AIxIA 2024, , Bolzano, Italy. 27 - 28 Nov 2024. pp. 311-320 .

Record type: Conference or Workshop Item (Paper)

Abstract

Stress is a prevalent and growing phenomenon in the modern world that could lead to significant physical issues, both physical and mental health. Analyzing physiological signals collected from wearable sensors using artificial intelligence methods has emerged as a promising approach to predicting and managing stress. However, conventional models for time series analysis are RNN architectures and encounter challenges like high computational costs and issues with vanishing or exploding gradients. Inspired by the success of deep learning methods in computer vision, several studies have proposed transforming time series into images by applying encoding time series algorithms. This work intends to compare three time-series encoding methods: Gramian Angular Field (GAF), both summation and difference, Markovian Transition Field (MTF) and Recurrent Plot (RP) in the stress detection scenario. We employ two architectures, VGG-16 and ResNet, based on Convolutional Neural Network (CNN), to evaluate the performance of these methods on a public dataset, WESAD. Our results demonstrate that the GAF encoding method proves to be the most effective for classifying physiological signals related to stress.

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More information

Published date: 27 November 2024
Additional Information: Publisher Copyright: © 2024 CEUR-WS. All rights reserved.
Venue - Dates: 3rd AIxIA Workshop on Artificial Intelligence For Healthcare, HC@AIxIA 2024, , Bolzano, Italy, 2024-11-27 - 2024-11-28
Keywords: Convolutional Neural Network, Time Series Encoding, VGG-16 architecture

Identifiers

Local EPrints ID: 508400
URI: http://eprints.soton.ac.uk/id/eprint/508400
PURE UUID: e5595a6b-3d1c-4ca7-9a4a-e80cae182c79
ORCID for Maria Óskarsdóttir: ORCID iD orcid.org/0000-0001-5095-5356

Catalogue record

Date deposited: 20 Jan 2026 17:57
Last modified: 21 Jan 2026 03:11

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Contributors

Author: Marco Serenelli
Author: Michela Quadrini
Author: Maria Óskarsdóttir ORCID iD
Author: Michele Loreti

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