Title :
Map-aided localization with lateral perception
Author :
Gruyer, Dominique ; Belaroussi, Rachid ; Revilloud, Marc
Author_Institution :
IFSTTAR, COSYS-LIVIC, Versailles, France
Abstract :
Accurate localization of a vehicle is a challenging task as GPS available on the market are not designed for lane-level accuracy application. Although dead reckoning helps, cumulative errors from inertial sensors result in a integration drift. This paper presents a new method of localization based on sensors data fusion. An accurate digital map of the lane marking is used as a powerful additional sensor. Road markings are detected by processing two lateral cameras to estimate their distance to the vehicle. Coupled with the map data in a EKF filter it improves the ego-localization obtained with inertial and GPS measurements. The result is a vehicle localization at an ego-lane level of accuracy, with a lateral error of less than 10 centimeters.
Keywords :
Global Positioning System; Kalman filters; cameras; cartography; distance measurement; inertial navigation; inertial systems; nonlinear filters; object detection; object recognition; road vehicles; sensor fusion; sensor placement; traffic engineering computing; EKF filter; GPS measurement; cameras; cumulative error; dead reckoning; digital map; distance estimation; ego lane level; ego localization; inertial measurement; inertial sensor; integration drift; lane marking; lateral error; lateral perception; map aided localization; road markings detection; sensor data fusion; vehicle localization accuracy; Accuracy; Cameras; Estimation; Global Positioning System; Roads; Sensors; Vehicles;
Conference_Titel :
Intelligent Vehicles Symposium Proceedings, 2014 IEEE
Conference_Location :
Dearborn, MI
DOI :
10.1109/IVS.2014.6856528
