Self-calibration of sensor misplacement based on motion signatures

2013 IEEE International Conference on Body Sensor Networks Pub Date : 2013-05-06 DOI:10.1109/BSN.2013.6575504

Xiaoxu Wu, Yan Wang, Chieh Chien, G. Pottie

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引用次数: 11

Abstract

Human motion monitoring with body worn sensors is becoming increasingly important in health and wellness. However, achieving a robust recognition of physical activities or gestures despite variability in sensor placement is important for the real-world deployment of body sensor networks. A novel self-calibration process of sensor misplacement based on repetitive motion signatures is proposed. A rotation matrix model is introduced to represent the impact of sensor misorientation. Dynamic time warping (DTW) is employed for choosing and synchronizing training and testing datasets. The information from repetitive motion signatures is then used to calibrate sensor misplacement. In this work, walking was used as an example of a motion signature that provides information for sensor misplacement calibration. To investigate the validity of this method, a large dataset of 57 walking traces over seven different subjects was collected. With the proposed algorithm, we show that in the lower body motion tracking experiment, step-length-measurement accuracy can be improved from 45.84% to 94.51%.

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基于运动特征的传感器错位自校正

人体运动监测与身体穿戴传感器在健康和保健方面变得越来越重要。然而，尽管传感器的位置存在差异，但实现对身体活动或手势的强大识别对于身体传感器网络的实际部署非常重要。提出了一种基于重复运动特征的传感器错位自校正方法。引入了一个旋转矩阵模型来表示传感器方位误差的影响。采用动态时间规整(DTW)来选择和同步训练和测试数据集。从重复运动特征的信息，然后用于校准传感器错位。在这项工作中，步行被用作运动特征的一个例子，为传感器错位校准提供信息。为了研究这种方法的有效性，我们收集了7个不同受试者的57条行走轨迹的大型数据集。实验结果表明，在下体运动跟踪实验中，步长测量精度从45.84%提高到94.51%。

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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2013 IEEE International Conference on Body Sensor Networks

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