DocumentCode
1694463
Title
Improving robustness and precision in mobile robot localization by using laser range finding and monocular vision
Author
Arras, Kai O. ; Tomatis, Nicola
Author_Institution
Autonomous Syst. Lab., Swiss Federal Inst. of Technol., Lausanne, Switzerland
fYear
1999
fDate
6/21/1905 12:00:00 AM
Firstpage
177
Lastpage
185
Abstract
The paper discusses mobile robot localization by means of geometric features from a laser range finder and a CCD camera. The features are line segments from the laser scanner and vertical edges from the camera. Emphasis is put on sensor models with a strong physical basis. For both sensors, uncertainties in the calibration and measurement process are adequately modeled and propagated through the feature extractors. This yields observations with their first order covariance estimates which are passed to an extended Kalman filter for fusion and position estimation. Experiments on a real platform show that, opposed to the use of the laser range finder only, the multisensor setup allows the uncertainty to stay bounded in difficult localization situations like long corridors, and contributes to an important reduction of uncertainty, particularly in the orientation. The experiments further demonstrate the applicability of such a multisensor localization system in real time on a fully autonomous robot
Keywords
Kalman filters; charge-coupled devices; computerised navigation; feature extraction; laser ranging; mobile robots; optical scanners; robot vision; sensor fusion; uncertain systems; CCD camera; extended Kalman filter; feature extractors; first order covariance estimates; fully autonomous robot; geometric features; laser range finding; laser scanner; line segments; localization situations; measurement process; mobile robot localization; monocular vision; multisensor localization system; multisensor setup; position estimation; real time; sensor models; uncertainty; vertical edges; Cameras; Charge coupled devices; Charge-coupled image sensors; Laser modes; Laser theory; Mobile robots; Robot vision systems; Robustness; Uncertainty; Yield estimation;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Mobile Robots, 1999. (Eurobot '99) 1999 Third European Workshop on
Conference_Location
Zurich
Print_ISBN
0-7803-5672-1
Type
conf
DOI
10.1109/EURBOT.1999.827638
Filename
827638
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