Title :
Bayesian train localization method extended by 3D geometric railway track observations from inertial sensors
Author :
Heirich, Oliver ; Robertson, Patrick ; García, Adrián Cardalda ; Strang, Thomas
Author_Institution :
Inst. of Commun. & Navig., DLR (German Aerosp. Center), Wessling, Germany
Abstract :
The localization of trains in a railway network is necessary for train control or applications like autonomous train driving or collision avoidance systems. Train localization is safety critical and therefore the approach requires a robust, accurate and track selective localization. The proposed approach focuses on an onboard localization system using appropriate onboard sensors without any additional railway infrastructure. Global navigation satellite systems (GNSS) are very beneficial for this task, but the accuracy, measurement errors and the lack of availability in parts of the railway environment do not fulfill the requirements for a safety critical railway system. An inertial measurement unit (IMU) is used to increase robustness and accuracy, by sensing the position related effects of 3D track geometry on the train. In order to cope with multiple sensors, position related uncertainties and sensor errors, we propose a probabilistic approach with a Bayesian filter. In this paper we present a train localization approach using a particle filter in combination with multiple onboard train sensor measurements and a known track map. The particle filter estimates a topological position directly in the track map. First simulations show encouraging results in robustness and accuracy in critical railway scenarios.
Keywords :
Bayes methods; measurement errors; particle filtering (numerical methods); probability; railway safety; safety systems; satellite navigation; sensor fusion; sensor placement; target tracking; 3D geometric railway track observations; 3D track geometry; Bayesian filter; Bayesian train localization method; GNSS; IMU; autonomous train driving system; collision avoidance systems; global navigation satellite systems; inertial measurement unit; inertial sensors; measurement errors; multiple onboard train sensor measurements; onboard localization system; particle filter; probabilistic approach; railway network; safety critical railway system; sensor errors; track map; track selective localization; train control; Acceleration; Geometry; Global Navigation Satellite Systems; Rail transportation; Sensors; Switches; Tracking;
Conference_Titel :
Information Fusion (FUSION), 2012 15th International Conference on
Conference_Location :
Singapore
Print_ISBN :
978-1-4673-0417-7
Electronic_ISBN :
978-0-9824438-4-2
