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Low cost MEMS sensors have been shown to provide high accuracy positioning when mounted on a user's foot through the use of zero velocity updates (ZUPT) every time the user takes a step. Although position drift is greatly reduced using ZUPTs, position errors will still accumulate over time, particularly due to heading errors which are weakly observable through zero velocity updates. Measurements from...
Precise Point Positioning (PPP) has been one of the major research interests in the Global Navigation Satellite System (GNSS) research field in recent years. PPP is a promising method because it can provide centimeter level positioning accuracy by using only one GNSS receiver, without using local reference networks. It is clear that this can provide cost savings compared to the traditional Real Time...
This work aims to optimise the use of GNSS for intialising a foot mounted pedestrian INS. The INS error model used in many navigation filters requires the input of an accurate, precise initial position and heading for stable filter performance. However such information is often not available at the start of a navigation session. Often a rough initialisation is performed and position updates are used...
Pseudorange-based integrity monitoring, for example receiver autonomous integrity monitoring (RAIM), has been investigated for many years and is used in various applications such as non-precision approach phase of flight. However, for high-accuracy applications, carrier phase-based RAIM (CRAIM), an extension of pseudorange-based RAIM (PRAIM) must be used. Existing CRAIM algorithms are a direct extension...
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