Publication:

Detecting Equine Gaits Through Rider-Worn Accelerometers

Date

2025
Journal article
https://doi.org/10.3390/ani15081080
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cris.virtual.orcid0000-0002-0816-6465
cris.virtual.orcid0000-0001-9544-4904
cris.virtual.orcid0009-0004-7194-6298
cris.virtual.orcid0000-0001-9948-9157
cris.virtual.orcid0000-0002-8807-0673
cris.virtualsource.departmentb29128a4-1ac7-4283-8857-4b31582a8bd1
cris.virtualsource.department08e0791a-6a95-418b-a1ce-2ce54188ac9b
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cris.virtualsource.orcidb29128a4-1ac7-4283-8857-4b31582a8bd1
cris.virtualsource.orcid08e0791a-6a95-418b-a1ce-2ce54188ac9b
cris.virtualsource.orcidbfe6d805-3f3f-420e-a331-fd6e1cc820d6
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dc.contributor.authorSchampheleer, Jorn
dc.contributor.authorEerdekens, Anniek
dc.contributor.authorJoseph, Wout
dc.contributor.authorMartens, Luc
dc.contributor.authorDeruyck, Margot
dc.contributor.imecauthorSchampheleer, Jorn
dc.contributor.imecauthorEerdekens, Anniek
dc.contributor.imecauthorJoseph, Wout
dc.contributor.imecauthorMartens, Luc
dc.contributor.imecauthorDeruyck, Margot
dc.contributor.orcidimecSchampheleer, Jorn::0009-0004-7194-6298
dc.contributor.orcidimecEerdekens, Anniek::0000-0001-9544-4904
dc.contributor.orcidimecJoseph, Wout::0000-0002-8807-0673
dc.contributor.orcidimecMartens, Luc::0000-0001-9948-9157
dc.contributor.orcidimecDeruyck, Margot::0000-0002-0816-6465
dc.date.accessioned2025-05-06T05:22:17Z
dc.date.available2025-05-06T05:22:17Z
dc.date.issued2025
dc.description.abstractAutomatic horse gait classification offers insights into training intensity, but direct sensor attachment to horses raises concerns about discomfort, behavioral disruption, and entanglement risks. To address this, our study leverages rider-centric accelerometers for movement classification. The position of a sensor, sampling frequency, and window size of segmented signal data have a major impact on classification accuracy in activity recognition. Yet, there are no studies that have evaluated the effect of all these factors simultaneously using accelerometer data from four distinct rider locations (the knee, backbone, chest, and arm) across five riders and seven horses performing three gaits. A total of eight models were compared, and an LSTM-convolutional network (ConvLSTM2D) achieved the highest accuracy, with an average accuracy of 89.72% considering four movements (halt, walk, trot, and canter). The model performed best with an interval width of four seconds and a sampling frequency of 25 Hz. Additionally, an F1-score of 86.18% was achieved and validated using LOSOCV (Leave One Subject Out Cross-Validation).
dc.identifier.doi10.3390/ani15081080
dc.identifier.issn2076-2615
dc.identifier.pmidMEDLINE:40281916
dc.identifier.urihttps://imec-publications.be/handle/20.500.12860/45607
dc.publisherMDPI
dc.source.beginpage1
dc.source.endpage16
dc.source.issue8
dc.source.journalANIMALS
dc.source.numberofpages16
dc.source.volume15
dc.subject.keywordsCENTER-OF-MASS
dc.subject.keywordsHUMAN ACTIVITY RECOGNITION
dc.subject.keywordsSHEEP BEHAVIOR
dc.subject.keywordsCLASSIFICATION
dc.subject.keywordsMOVEMENT
dc.subject.keywordsHORSES
dc.title

Detecting Equine Gaits Through Rider-Worn Accelerometers

dc.typeJournal article
dspace.entity.typePublication
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