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Pose estimation of quadratic surface using surface fitting technique

Moon-Hong Baeg, Hideki Hashimoto, Fumio Harashima, J.B. Moore

Year
2002
Citations
12

Abstract

A key problem in robotics is the estimation of the location and orientation of objects from surface measurement data. This is termed pose estimation. A fundamental task is the pose estimation of known quadratic surfaces from, possibly noisy, data. A solution for this task facilitates pose estimation for more complex objects. Current algorithms frequently converge to local minima of the performance index and/or pay a high computing cost and/or are sensitive to noise, that are unsuited for online applications because of the intensive computer effort required. The goal is to develop a fast and robust algorithm for pose estimation using range data. Here, pose estimation is carried out using algebraic techniques in a two stage optimization procedure involving least squares estimation, or better the method of instrumental variables, and 3/spl times/3 matrix diagonalizations. The procedure leads to zero pose estimation error in the noise free finite data case, and in the case of infinite data with additive white noise.

Keywords

Pose3D pose estimationMaxima and minimaNoise (video)Computer scienceArtificial intelligenceRange (aeronautics)AlgorithmQuadratic equationWhite noise

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