On the Recursive Joint Position and Attitude Determination in Multi-Antenna GNSS Platforms

On the Recursive Joint Position and Attitude Determination in Multi-Antenna GNSS Platforms

Global Navigation Satellite Systems’ (GNSS) carrier phase observations are fundamental in the provision of precise navigation for modern applications in intelligent transport systems. Differential precise positioning requires the use of a base station nearby the vehicle location, while attitude dete...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Vol. 12; no. 12; p. 1955
Main Authors: Medina, Daniel, Vilà-Valls, Jordi, Hesselbarth, Anja, Ziebold, Ralf, García, Jesús
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-06-2020
MDPI
Subjects:
Ambiguity
Antennas
attitude determination
Bayesian analysis
Engineering Sciences
Global navigation satellite system
GNSS
Intelligent transportation systems
Kalman filtering
Kalman filters
Kinematics
Navigation satellites
Other
Performance assessment
Platforms
quaternion rotation
Quaternions
Receivers & amplifiers
RTK positioning
Satellite observation
Satellite tracking
Satellites
Vehicles
Quaternion rotation
Kalman filtering
Attitude determination
GNSS
RTK positioning
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Summary:Global Navigation Satellite Systems’ (GNSS) carrier phase observations are fundamental in the provision of precise navigation for modern applications in intelligent transport systems. Differential precise positioning requires the use of a base station nearby the vehicle location, while attitude determination requires the vehicle to be equipped with a setup of multiple GNSS antennas. In the GNSS context, positioning and attitude determination have been traditionally tackled in a separate manner, thus losing valuable correlated information, and for the latter only in batch form. The main goal of this contribution is to shed some light on the recursive joint estimation of position and attitude in multi-antenna GNSS platforms. We propose a new formulation for the joint positioning and attitude (JPA) determination using quaternion rotations. A Bayesian recursive formulation for JPA is proposed, for which we derive a Kalman filter-like solution. To support the discussion and assess the performance of the new JPA, the proposed methodology is compared to standard approaches with actual data collected from a dynamic scenario under the influence of severe multipath effects.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs12121955