Haiming Gan scite author profile

With the recent advances in deep learning, wearable sensors have increasingly been used in automated animal activity recognition. However, there are two major challenges in improving recognition performance—multi-modal feature fusion and imbalanced data modeling. In this study, to improve classification performance for equine activities while tackling these two challenges, we developed a cross-modality interaction network (CMI-Net) involving a dual convolution neural network architecture and a cross-modality interaction module (CMIM). The CMIM adaptively recalibrated the temporal- and axis-wise features in each modality by leveraging multi-modal information to achieve deep intermodality interaction. A class-balanced (CB) focal loss was adopted to supervise the training of CMI-Net to alleviate the class imbalance problem. Motion data was acquired from six neck-attached inertial measurement units from six horses. The CMI-Net was trained and verified with leave-one-out cross-validation. The results demonstrated that our CMI-Net outperformed the existing algorithms with high precision (79.74%), recall (79.57%), F1-score (79.02%), and accuracy (93.37%). The adoption of CB focal loss improved the performance of CMI-Net, with increases of 2.76%, 4.16%, and 3.92% in precision, recall, and F1-score, respectively. In conclusion, CMI-Net and CB focal loss effectively enhanced the equine activity classification performance using imbalanced multi-modal sensor data.

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Automatic recognition of lactating sow postures by refined two-stream RGB-D faster R-CNN

Zhu

Chen

Zheng

et al. 2020

Biosystems Engineering

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Center clustering network improves piglet counting under occlusion

Huang

Mao

Gan

et al. 2021

Computers and Electronics in Agriculture

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Haiming Gan

An automatic recognition framework for sow daily behaviours based on motion and image analyses

Cross-Modality Interaction Network for Equine Activity Recognition Using Imbalanced Multi-Modal Data

Automatic recognition of lactating sow postures by refined two-stream RGB-D faster R-CNN

Center clustering network improves piglet counting under occlusion

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