Dog's Behaviour Classification Based on Wearable Sensor Accelerometer Data

2022 5th Conference on Cloud and Internet of Things (CIoT) Pub Date : 2022-03-28 DOI:10.1109/ciot53061.2022.9766553

Anniek Eerdekens, Arne Callaert, M. Deruyck, L. Martens, W. Joseph

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引用次数: 1

Abstract

Sensor-based behavioral detection and classification can improve dog health and welfare. Since continuous monitoring is required, an energy-efficient solution is needed. The number of logging axes, sampling rate, and selected features of accelerometer data not only have a significant impact on classification accuracy in activity recognition but also on the sensor's energy needs. Three models are designed for detecting dog's activities namely, a Random Forest classifier (RF), a Convolutional Neural Network (CNN) and a hybrid CNN, i.e. a CNN fused with statistical features that retain knowledge about the global time series form. The models are validated using an experimental dataset consisting of six different dogs performing in eight different activities i.e. lying, sitting, standing, walking, running, sprinting, eating and drinking. The results indicate that using neck and chest accelerometer data sampled at 10 Hz is sufficient for high overall classification accuracies (96.44%) for the three models. The hybrid CNN is capable of excellent performance, detecting nearly 97.87% of the behaviours at 10 Hz with a class accuracy of 80 % or higher.

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基于可穿戴传感器加速度计数据的狗的行为分类

基于传感器的行为检测和分类可以改善狗的健康和福利。由于需要持续监测，因此需要一种节能的解决方案。加速度计数据的测井轴数、采样率和特征选择不仅对活动识别的分类精度有很大影响，而且对传感器的能量需求也有很大影响。设计了三种模型用于检测狗的活动，即随机森林分类器(RF)，卷积神经网络(CNN)和混合CNN，即融合了统计特征的CNN，保留了关于全局时间序列形式的知识。这些模型使用一个实验数据集进行验证，该数据集由6只不同的狗组成，它们在8种不同的活动中表现出来，即躺着、坐着、站着、走着、跑着、短跑着、吃着和喝着。结果表明，使用10 Hz采样频率的颈部和胸部加速度计数据足以使三种模型的总体分类精度达到96.44%。混合CNN具有优异的性能，在10 Hz下检测到97.87%的行为，类精度达到80%或更高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 5th Conference on Cloud and Internet of Things (CIoT)

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