Indoor localization using a smart phone

Rui Zhang, A. Bannoura, F. Hoflinger, L. Reindl, C. Schindelhauer
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引用次数: 64

Abstract

This paper presents a novel indoor localization solution using a smart phone. Instead of building the inertial measurement unit (IMU), the integrated calibrated sensors inside the smart phone provide all the sensor information needed. Meanwhile, we avoid the complicated calibration process, when the calibration machines or workstations are not available. Since smart phones are meant to be held in hand, algorithms and methods based on walking speed reset can not be utilized. Therefore, correct orientation and step length information are indispensable. In this study, a modified Kalman filter based sensor data fusion was used to achieve accurate orientation data by detecting and minimizing the effect of magnetic field disturbance. Three methods are presented and compared to calculate each step length based on vertical acceleration using biomechanic model or empirical relation. The experimental results show that the proposed solution is capable of tracking the person indoors and to achieve a tracking accuracy of less than 0.3m.
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使用智能手机进行室内定位
本文提出了一种基于智能手机的室内定位解决方案。智能手机内部集成的校准传感器提供了所需的所有传感器信息,而不是建立惯性测量单元(IMU)。同时,避免了在没有定标机或工作站的情况下,繁琐的定标过程。因为智能手机是握在手里的,所以不能使用基于行走速度重置的算法和方法。因此,正确的方向和步长信息是必不可少的。在本研究中,基于改进卡尔曼滤波的传感器数据融合,通过检测和最小化磁场干扰的影响来获得准确的方向数据。提出了三种基于垂直加速度的步长计算方法,并用生物力学模型和经验关系式进行了比较。实验结果表明,该方案能够对室内人员进行跟踪,跟踪精度不超过0.3m。
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