使用多模式传感器的人类步态活动识别。

International journal of neural systems Pub Date : 2023-11-01 Epub Date: 2023-09-30 DOI:10.1142/S0129065723500582
Diego Teran-Pineda, Karl Thurnhofer-Hemsi, Enrique Domínguez
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引用次数: 0

摘要

人类活动识别是机器学习的一种应用,目的是从不同传感器采集的活动原始数据中识别活动。在医学中,医生通常会分析人体步态,以检测异常情况并确定患者的可能治疗方法。监测患者的活动对于评估治疗进展至关重要。这种类型的分类仍然不够精确,这可能会导致不利的反应和反应。为了改进基于加速度计数据的人类活动分类,提出了一种降低多模式传感器特征提取复杂性的新方法。使用滑动窗口技术来标定第一主谱幅度,降低维数并改进特征提取。在这项工作中,我们比较了在HuGaDB数据集上评估的几种最先进的机器学习分类器,并在我们的数据集上进行了验证。使用多模式传感器分析了几种减少特征和训练时间的配置:全轴谱、单轴谱和传感器缩减。
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Human Gait Activity Recognition Using Multimodal Sensors.

Human activity recognition is an application of machine learning with the aim of identifying activities from the gathered activity raw data acquired by different sensors. In medicine, human gait is commonly analyzed by doctors to detect abnormalities and determine possible treatments for the patient. Monitoring the patient's activity is paramount in evaluating the treatment's evolution. This type of classification is still not enough precise, which may lead to unfavorable reactions and responses. A novel methodology that reduces the complexity of extracting features from multimodal sensors is proposed to improve human activity classification based on accelerometer data. A sliding window technique is used to demarcate the first dominant spectral amplitude, decreasing dimensionality and improving feature extraction. In this work, we compared several state-of-art machine learning classifiers evaluated on the HuGaDB dataset and validated on our dataset. Several configurations to reduce features and training time were analyzed using multimodal sensors: all-axis spectrum, single-axis spectrum, and sensor reduction.

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