Department of Software Engineering, Capital University of Science and Technology (CUST), Islamabad 44000, Pakistan.
Department of Computer Science and Technology, Tsinghua University, Beijing 100084, China.
Sensors (Basel). 2022 Sep 2;22(17):6632. doi: 10.3390/s22176632.
Human physical activity recognition from inertial sensors is shown to be a successful approach for monitoring elderly individuals and children in indoor and outdoor environments. As a result, researchers have shown significant interest in developing state-of-the-art machine learning methods capable of utilizing inertial sensor data and providing key decision support in different scenarios. This paper analyzes data-driven techniques for recognizing human daily living activities. Therefore, to improve the recognition and classification of human physical activities (for example, walking, drinking, and running), we introduced a model that integrates data preprocessing methods (such as denoising) along with major domain features (such as time, frequency, wavelet, and time-frequency features). Following that, stochastic gradient descent (SGD) is used to improve the performance of the extracted features. The selected features are catered to the random forest classifier to detect and monitor human physical activities. Additionally, the proposed HPAR system was evaluated on five benchmark datasets, namely the IM-WSHA, PAMAP-2, UCI HAR, MobiAct, and MOTIONSENSE databases. The experimental results show that the HPAR system outperformed the present state-of-the-art methods with recognition rates of 90.18%, 91.25%, 91.83%, 90.46%, and 92.16% from the IM-WSHA, PAMAP-2, UCI HAR, MobiAct, and MOTIONSENSE datasets, respectively. The proposed HPAR model has potential applications in healthcare, gaming, smart homes, security, and surveillance.
从惯性传感器识别人类身体活动被证明是一种成功的方法,可用于监测室内和室外环境中的老年人和儿童。因此,研究人员对开发最先进的机器学习方法表现出了浓厚的兴趣,这些方法能够利用惯性传感器数据,并在不同场景中提供关键决策支持。本文分析了用于识别人类日常生活活动的数据驱动技术。因此,为了提高人类身体活动(例如行走、喝水和跑步)的识别和分类能力,我们引入了一种模型,该模型集成了数据预处理方法(如去噪)和主要领域特征(如时间、频率、小波和时频特征)。随后,随机梯度下降(SGD)被用于改进提取特征的性能。选择的特征适用于随机森林分类器,以检测和监测人类身体活动。此外,在所提出的 HPAR 系统中,在五个基准数据集(即 IM-WSHA、PAMAP-2、UCI HAR、MobiAct 和 MOTIONSENSE 数据库)上进行了评估。实验结果表明,与现有最先进的方法相比,HPAR 系统的识别率分别为 90.18%、91.25%、91.83%、90.46%和 92.16%,在 IM-WSHA、PAMAP-2、UCI HAR、MobiAct 和 MOTIONSENSE 数据集上均取得了优异的性能。所提出的 HPAR 模型在医疗保健、游戏、智能家居、安全和监控等领域具有潜在的应用前景。
