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Increased Error Observability of an Inertial Pedestrian Navigation System by Rotating IMU
Khairi Abdulrahim1, Chris Hide2, Terry Moore2 & Chris Hill2
1Facultyof Science and Technology, Universiti Sains Islam Malaysia (USIM), Bandar Baru Nilai, Nilai 71800, Negeri Sembilan, Malaysia 2Nottingham Geospatial Institute, University of Nottingham, NG7 2RD, Nottingham, UK Email: khairiabdulrahim@usim.edu.my
Abstract. Indoor pedestrian navigation suffers from the unavailability of useful GNSS signals for navigation. Often a low-cost non-GNSS inertial sensor is used to navigate indoors. However, using only a low-cost inertial sensor for the system degrades its performance due to the low observability of errors affecting such low-cost sensors. Of particular concern is the heading drift error, caused primarily by the unobservability of z-axis gyro bias errors, which results in a huge positioning error when navigating for more than a few seconds. In this paper, the observability of this error is increased by proposing a method of rotating the inertial sensor on its y-axis. The results from a field trial for the proposed innovative method are presented. The method was performed by rotating the sensor mechanically–mounted on a shoe–on a single axis. The method was shown to increase the observability of z-axis gyro bias errors of a low-cost sensor. This is very significant because no other integrated measurements from other sensors are required to increase error observability. This should potentially be very useful for autonomous low-cost inertial pedestrian navigation systems that require a long period of navigation time.
Keywords: error observability; inertial; low-cost; pedestrian navigation; sensor.
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