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引用次数: 0
摘要
日常生活活动(ADL)包括刷牙、扫地和散步等对持续健康至关重要的活动,尤其是对老年人。可以使用录制的视频和2d - cnn来确定活动,但视频记录在个人空间中存在隐私和覆盖方面的挑战。记录运动数据的智能手机和较新的腕带设备也可以用于活动识别任务。脚踝或鞋子上的设备,如退役的Nike+传感器,不太常见,但是可以记录头部运动的耳式设备越来越受欢迎。在这项工作中,我们使用了最近发布的数据集中的加速度计数据,这些数据集使用了放置在脚踝、臀部和手腕上的设备。首先,我们评估了一个简单的1d - cnn在主题依赖和主题独立分析中对17个包含的活动进行分类的能力。然后,我们分别处理来自三个传感器的加速度计数据,以评估每个位置预测活动的能力。最后,我们开发了一个功能模型,该模型对每个传感器的数据独立执行1D-CNN,并使用Global Average Pooling将结果结合起来。该功能模型与主体无关的准确率达到70.7%。
Individual Convolution of Ankle, Hip, and Wrist Data for Activities-of-Daily-Living Classification
The Activities of Daily Living (ADL) include activities such as brushing teeth, sweeping, and walking that are critical to on-going health, especially in older adults. Activities may be determined using recorded video and 2D-CNNs, however video recordings present privacy and coverage challenges in personal spaces. Smartphones and newer wristworn devices that record motion data can also be used for activity recognition tasks. Ankle or shoe-based devices such as the retired Nike+ sensor are less common, however ear-based devices which may record head movement are gaining popularity. In this work we use accelerometer data from a recently released dataset using devices placed on the ankle, hip, and wrist. First, we evaluate a simple 1D-CNNs ability to classify the 17 included activities in subject-dependent and subject-independent analysis. Then we process the accelerometer data from the three sensors individually to evaluate each location’s ability to predict activities. Finally, we develop a functional model which independently executes a 1D-CNN for each sensor’s data and combines the results using Global Average Pooling. The functional model achieves a subject-independent accuracy of 70.7%.
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