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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Spot the Pain: Exploring the Application of Skeleton Pose Estimation for Automated Pain Assessment

Hjelm Gardner, Angelica January 2022 (has links)
Automated pain assessment is emerging as an essential part of pain management in areas such as healthcare, rehabilitation, sports and fitness. These automated systems are based on machine learning applications and can provide reliable, objective and cost-effective benefits. To enable an automated approach, at least one channel of sensory input, known as modality, must be available to the system. So far, most studies of automated pain assessment have focused on facial expressions or physiological signals, and although body gestures are considered to be indicators of pain, not much attention has been paid to this modality. Using skeleton pose estimation, we can model body gestures and investigate how body movement information affects pain assessment performance in different approaches. In this study, we explored approaches to pain assessment using skeleton pose estimation for three objectives: pain recognition, pain intensity estimation, and pain area classification. Because pain is a complex experience and is often expressed across multiple modalities, we analysed both unimodal approaches using only body data and bimodal approaches using skeleton pose estimation with facial expressions and head pose. In our experiments, we trained models based on two deep learning architectures: a hybrid CNN-BiLSTM and a recurrent CNN (RCNN), on a real-world dataset consisting of video recordings of people performing an overhead deep squat exercise. We also investigated bimodal fusion of body and face modalities in three different strategies: early fusion, late fusion and ensemble learning. Although our results are still preliminary, they show promising indications and possible future improvements. The best performance was obtained with ensemble for pain recognition (AUC 0.71), unimodal body CNN-BiLSTM for pain intensity estimation (AUC 0.75) and late fusion of body and face modalities using RCNN for pain area classification (AUC 0.75). Our experimental results demonstrate the feasibility of using skeleton pose estimation to represent body modality, the importance of incorporating body movements into automated pain assessment, and the exploration of the previously understudied assessment objective of localising pain areas in the body.

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