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

Volume

20

Issue

1

fYear

2004

Firstpage

36

Lastpage

44

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;

fLanguage

English

Journal_Title

Robotics and Automation, IEEE Transactions on

Publisher

ieee

ISSN

1042-296X

Type

jour

DOI

10.1109/TRA.2003.820933

Filename

1266643