Title :
Localization of a mobile robot using relative bearing measurements
Author :
Briechle, K. ; Hanebeck, U.D.
Author_Institution :
Inst. of Autom. Control Eng., Tech. Univ. Munchen, Germany
Abstract :
In this paper, the problem of recursive robot localization based on relative bearing measurements is considered, where unknown but bounded measurement uncertainties are assumed. A common approach is to approximate the resulting set of feasible states by simple-shaped bounding sets such as, e.g., axis-aligned boxes, and calculate the optimal parameters of this approximation based on the measurements and prior knowledge. In the novel approach presented here, a nonlinear transformation of the measurement equation into a higher dimensional space is performed. This yields a tight, possibly complex-shaped, bounding set in a closed-form representation whose parameters can be determined analytically for the measurement step. It is shown that the new bound is superior to commonly used outer bounds.
Keywords :
angular measurement; filtering theory; measurement uncertainty; mobile robots; navigation; nonlinear filters; set theory; angle measurements; bounded measurement uncertainties; closed-form representation; higher dimensional space; measurement equation; mobile robot; nonlinear filtering; nonlinear transformation; recursive robot localization; relative bearing measurements; robot navigation; set-theoretic estimation; unknown measurement uncertainties; Filtering; Least squares approximation; Measurement errors; Measurement uncertainty; Mobile robots; Nonlinear equations; Nonlinear filters; Performance evaluation; Position measurement; Robot localization;
Journal_Title :
Robotics and Automation, IEEE Transactions on
DOI :
10.1109/TRA.2003.820933
