Standalone inertial pocket navigation system

Positioning applications became more important in recent years not only for security applications, but also for the mass market. Having a pedestrian navigation system embedded in a mobile phone is a realistic solution since it is equipped with low-cost sensors and the smartphone is located in a non-...

Full description

Saved in:
Bibliographic Details
Main Authors: Diaz, Estefania Munoz, Gonzalez, Ana Luz Mendiguchia, de Ponte Müller, Fabian
Format: Conference Proceeding
Language:English
Subjects:
Acceleration
attitude estimator
Detectors
Gyroscopes
handheld
heading
magnetic field
Magnetic sensors
Magnetometers
Navigation
odometry
Pocket
Online Access:Request full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Positioning applications became more important in recent years not only for security applications, but also for the mass market. Having a pedestrian navigation system embedded in a mobile phone is a realistic solution since it is equipped with low-cost sensors and the smartphone is located in a non-obstructive way. The location of the smartphone is important, since the position estimation process depends on it. Therefore, we propose to distinguish between pocket or bag, phoning, texting and swinging. We present a standalone inertial pocket navigation system based on an inertial measurement unit. For the computation of the orientation, we have developed an attitude estimator based on an unscented Kalman filter. The update stage has two different updates based on the acceleration and the magnetic field. Therefore, a zero acceleration detector, a magnetic disturbances detector and a static periods detector have been developed. The odometry in our navigation system is computed through an extended Kalman filter. The position is predicted with a movement model which is periodically updated through position corrections computed by the position computer. It comprises a step detector and a step length estimator based on the norm of the acceleration. The performance of our attitude estimator in comparison with the ground truth orientation is shown. The rest of the handheld positions are also tested for orientation. Likewise, we show pocket odometries of different users with the floor plan superimposed.
ISSN:2153-358X
2153-3598
DOI:10.1109/PLANS.2014.6851382