A Multi-Sensor Navigation Filter for High Accuracy Positioning in all Environments-Reference-Cited by-同舟云学术

A Multi-Sensor Navigation Filter for High Accuracy Positioning in all Environments

Published:2007-08-09 Issue:3 Volume:60 Page:409-425
ISSN:0373-4633
Container-title:Journal of Navigation
language:en
Short-container-title:J. Navigation

Author:

Hide Chris,Moore Terry,Hill Chris

Abstract

The aim of the SPACE project is to develop a mobile test bed that can position to within centimetres in all conditions and environments. To achieve this goal, a number of different positioning technologies have to be integrated together including GNSS, INS, pseudolites and other technologies such as Ultra Wideband and Bluetooth ranging. The integration of these sensors is achieved by the development of a ‘plug and play’ filter that will optimally combine measurements from each sensor to form an accurate position solution. The filter has been designed so that the sensors are integrated at the measurement level wherever possible, so partial measurements from different systems can be used together.This paper describes the development of the plug and play filter, focussing in particular on how the states are defined, how the measurements are used, and how a generic filter can be developed that can integrate all types of positioning sensor. Some early results from the filter are shown integrating GPS, INS and simulated measurements from an Ultra Wideband system. A prototype version of the mobile test bed is also described.

Publisher

Cambridge University Press (CUP)

Subject

Ocean Engineering,Oceanography

Reference10 articles.

1. Shin E-H. , (2005), Estimate Techniques for Low-Cost Inertial Navigation. PhD thesis, Department of Geomatics Engineering, University of Calgary

2. Bergman N. , (1999), Recursive Bayesian Estimation: Navigation and Tracking Applications. PhD theses, Department of Electrical Engineering, Linköping University, Sweden.

3. Teunissen P. , Joosten P. , Tiberius C. , (2002), A Comparison of TCAR, CIR and LAMBDA GNSS Ambiguity Resolution, Proceedings of the Institute of Navigation GPS 2002, Oregon, September 2002.

4. Integer Ambiguity Estimation with the Lambda Method

5. Ingram S. J. , Harmer D. , Quinlan M. , (2004) UltraWideBand indoor positioning systems and their use in emergencies, Proceedings of Position Location and Navigation Symposium, 2004. PLANS 2004

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