Precise indoor altitude estimation based on differential barometric sensing for wireless medical applications

2013 IEEE International Conference on Body Sensor Networks Pub Date : 2013-05-06 DOI:10.1109/BSN.2013.6575485

Christian Bollmeyer, Tim Esemann, H. Gehring, H. Hellbrück

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引用次数: 16

Abstract

Some medical applications require precise information of position and orientation of a patient as changes affect pressure condition inside the body. In this paper we focus on altitude estimation, where altitude is a distance, in vertical direction, between a reference and a point of a human body. We suggest equipping wireless sensor nodes with high resolution pressure sensors to calculate the altitude with the barometric formula. We implement a body sensor network based on IEEE 802.15.4 and synchronization mechanism with a reference. Pressure variations due to environmental effects are compensated by cancellation with this differential measurement setup. We demonstrate the need for differential measurements and show with a series of measurements that environmental pressure variations have no significant effect on the proposed altitude estimation. Compared to existing systems, our solution is cost effective, easy to deploy and provides a flexible tradeoff between precision and location lag by adjusting a filter constant.

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无线医疗应用中基于差分气压传感的精确室内高度估计

一些医疗应用需要病人的位置和方向的精确信息，因为变化会影响体内的压力状况。在本文中，我们的重点是高度估计，其中高度是一个距离，在垂直方向上，参考和人体的一点之间。建议在无线传感器节点上配备高分辨率压力传感器，利用气压公式计算海拔高度。我们实现了一个基于IEEE 802.15.4和参考同步机制的人体传感器网络。由于环境影响引起的压力变化可以通过这种差分测量装置抵消来补偿。我们论证了差分测量的必要性，并通过一系列测量表明，环境压力变化对提出的海拔估计没有显著影响。与现有系统相比，我们的解决方案具有成本效益，易于部署，并通过调整滤波器常数在精度和位置滞后之间提供灵活的权衡。

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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