Improving robot self-localization using landmarks' poses tracking and odometry error estimation

Guerrero, P.; Ruiz del Solar, J

Keywords: systems, maps, objects, localization, radio, filters, wave, world, error, particle, control, theory, tracking, estimation, robotics, self-localization, analysis, accuracy, filtering, cellular, mobile, robocup, measures, robots, a-priori, soccer, international, symposium, new, Global, Extended, Kalman, (position), approaches, estimations, Cup, Odometric, Odometry, Robot-soccer, View-dependent

Abstract

In this article the classical self-localization approach is improved by estimating, independently from the robot's pose, the robot's odometric error and the landmarks' poses. This allows using, in addition to fixed landmarks, dynamic landmarks such as temporally local objects (mobile objects) and spatially local objects (view-dependent objects or textures), for estimating the odometric error, and therefore improving the robot's localization. Moreover, the estimation or tracking of the fixed-landmarks' poses allows the robot to accomplish successfully certain tasks, even when having high uncertainty in its localization estimation (e.g. determining the goal position in a soccer environment without directly seeing the goal and with high localization uncertainty). Furthermore, the estimation of the fixed-landmarks' pose allows having global measures of the robot's localization accuracy, by comparing the real map, given by the real (a priori known) position of the fixed-landmarks, with the estimated map, given by the estimated position of these landmarks. Based on this new approach we propose an improved self-localization system for AIBO robots playing in a RoboCup soccer environment, where the odometric error estimation is implemented using Particle Filters, and the robot's and landmarks' poses are estimated using Extended Kalman Filters. Preliminary results of the system's operation are presented. © 2008 Springer-Verlag Berlin Heidelberg.

Más información

Título de la Revista: BIO-INSPIRED SYSTEMS AND APPLICATIONS: FROM ROBOTICS TO AMBIENT INTELLIGENCE, PT II
Volumen: 5001
Editorial: SPRINGER INTERNATIONAL PUBLISHING AG
Fecha de publicación: 2008
Página de inicio: 148
Página final: 158
URL: http://www.scopus.com/inward/record.url?eid=2-s2.0-50249095727&partnerID=q2rCbXpz