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A Qualitative-probabilistic approach to autonomous mobile robot self localisation and self vision calibration
Date
2013-07-07Registration in:
European Conference on Symbolic and Quantitative Approaches to Reasoning and Uncertainty, 12, 2013, Utrecht.
Author
Pereira, Valquiria Fenelon
Cozman, Fabio Gagliardi
Santos, Paulo Eduardo
Martins, Murilo Fernandes
Institutions
Abstract
Typically, the spatial features of a robot's environment are specified using metric coordinates, and well-known mobile robot localisation techniques are used to track the exact robot position. In this paper, a qualitative-probabilistic approach is proposed to address the problem of mobile robot localisation. This approach combines a recently proposed logic theory called Perceptual Qualitative Reasoning about Shadows (PQRS) with a Bayesian filter. The approach herein proposed was systematically evaluated through experiments using a mobile robot in a real environment, where the sequential prediction and measurement steps of the Bayesian filter are used to both self-localisation and self-calibration of the robot's vision system from the observation of object's and their shadows. The results demonstrate that the qualitative-probabilistic approach effectively improves the accuracy of robot localisation, keeping the vision system well calibrated so that shadows can be properly detected.