Energy efficient indoor localization utilizing BT 4.0 strapdown inertial navigation system

A. Arvanitopoulos, J. Gialelis, S. Koubias
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引用次数: 6

Abstract

In the age of automation the need for indoor navigation has become quite important for a rising number of applications. In this work a strapdown INS (SINS) in terms of Inertial Navigation System is discussed. INS is an electronic device, containing an Inertial Measurement Unit (IMU), implementing a Dead Reckoning (DR) algorithm. This algorithm estimates position, velocity and orientation utilizing readings from motion sensors. The logic behind DR algorithm is to continually adding detected changes from the sensors to its previously calculated results. This is the main reason why INS is limited to measure relative position and orientation. Thus the accuracy of the propagated position depends heavily on the quality of the initial conditions. In addition, if absolute position or orientation updates are obtained by another sensor source at a high rate, the INS can be used to deliver high precision positions. In this paper, an INS fused with the new Bluetooth v4.0 technology is described.
利用BT 4.0捷联惯性导航系统的节能室内定位
在自动化时代,室内导航的需求对于越来越多的应用来说变得非常重要。本文讨论了捷联惯导系统中的捷联惯导系统。INS是一种电子设备,包含惯性测量单元(IMU),实现航位推算(DR)算法。该算法利用运动传感器的读数来估计位置、速度和方向。DR算法背后的逻辑是不断地将传感器检测到的变化添加到先前计算的结果中。这就是INS只能测量相对位置和方向的主要原因。因此,传播位置的准确性在很大程度上取决于初始条件的质量。此外,如果另一个传感器源以高速率获得绝对位置或方向更新,则INS可用于提供高精度位置。本文介绍了一种融合了蓝牙v4.0新技术的自动导航系统。
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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