Robust animal activity recognition using wearable sensors : A correlation distillation-based information recovery method toward data having low sampling rates
Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review
Author(s)
Related Research Unit(s)
Detail(s)
Original language | English |
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Title of host publication | The U.S. Precision Livestock Farming 2023 |
Subtitle of host publication | Conference Proceedings of the 2nd U.S. Precision Livestock Farming Conference |
Editors | Yang ZHAO, Daniel BERCKMANS, Hao GAN, Brett RAMIREZ, Janice SIEGFORD, LingJuan WANG-LI |
Publisher | The Proceedings Committee of the 2nd U.S. Precision Livestock Farming Conference |
Pages | 416-423 |
ISBN (print) | 9798350904178 |
Publication status | Published - 24 May 2023 |
Conference
Title | 2nd U.S. Precision Livestock Farming Conference |
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Location | University of Tennessee Conference Center |
Place | United States |
City | Knoxville |
Period | 21 - 24 May 2023 |
Link(s)
Permanent Link | https://scholars.cityu.edu.hk/en/publications/publication(c462fbf0-ffb7-4362-b9dd-3fef6c5c16ad).html |
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Abstract
Automated animal activity recognition (AAR) has succeeded dramatically due to recent sensing technologies and deep learning advances, enhancing animal health and welfare. Since animals need to be monitored over a long period, factors influencing the energy consumption of sensing devices must be considered carefully. As a critical factor, the sampling rate greatly affects energy usage, battery life, and data storage. To reduce energy costs, existing works often lower sampling rates. However, when the sampling rate falls below a limited threshold, the recognition performance would degrade rapidly due to missing many relevant signals. Therefore, this study proposed a novel correlation distillation-based information recovery (CDIR) method to improve the performance of AAR at low sampling rates. Specifically, we took two convolutional neural networks trained using data having higher and lower sampling rates as the teacher and student models, respectively. The CDIR enabled the student to mimic correlations within teacher features, facilitating missing information recovery. To evaluate its effectiveness, we conducted experiments on a public dataset acquired from six horses using tri-axial accelerometers and gyroscopes with 100 Hz. Data having low sampling rates were obtained by down-sampling the original data at different frequencies (e.g., 50, and 25 Hz). The experimental results demonstrated that our CDIR remarkably boosted the model trained on low sampling rate data (e.g., percentage-point increments in the precision, recall, F1-score, and accuracy of 2.98%, 3.22%, 3.05%, and 1.89%, respectively, for the 12.5-Hz data) while outperforming the existing KD algorithms. This inspired the development of energy-efficient animal monitoring systems.
Research Area(s)
- behavioral classification, deep learning, resampling, knowledge distillation
Citation Format(s)
Robust animal activity recognition using wearable sensors: A correlation distillation-based information recovery method toward data having low sampling rates. / Mao, A. X.; Huang, E. D.; Zhu, M. L. et al.
The U.S. Precision Livestock Farming 2023: Conference Proceedings of the 2nd U.S. Precision Livestock Farming Conference. ed. / Yang ZHAO; Daniel BERCKMANS; Hao GAN; Brett RAMIREZ; Janice SIEGFORD; LingJuan WANG-LI. The Proceedings Committee of the 2nd U.S. Precision Livestock Farming Conference, 2023. p. 416-423.
The U.S. Precision Livestock Farming 2023: Conference Proceedings of the 2nd U.S. Precision Livestock Farming Conference. ed. / Yang ZHAO; Daniel BERCKMANS; Hao GAN; Brett RAMIREZ; Janice SIEGFORD; LingJuan WANG-LI. The Proceedings Committee of the 2nd U.S. Precision Livestock Farming Conference, 2023. p. 416-423.
Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review