3D-Ultrasound probe calibration for computer-guided diagnosis and therapy - Archive ouverte HAL
Communication Dans Un Congrès Année : 2006

3D-Ultrasound probe calibration for computer-guided diagnosis and therapy

Résumé

With the emergence of swept-volume ultrasound (US) probes, precise and almost real-time US volume imaging has become available. This offers many new opportunities for computer guided diagnosis and therapy, 3-D images containing significantly more information than 2-D slices. However, computer guidance often requires knowledge about the exact position of US voxels relative to a tracking reference, which can only be achieved through probe calibration. In this paper we present a 3-D US probe calibration system based on a membrane phantom. The calibration matrix is retrieved by detection of a membrane plane in a dozen of US acquisitions of the phantom. Plane detection is robustly performed with the 2-D Hough transformation. The feature extraction process is fully automated, calibration requires about 20 minutes and the calibration system can be used in a clinical context. The precision of the system was evaluated to a root mean square (RMS) distance error of 1.15mm and to an RMS angular error of 0.61°. The point reconstruction accuracy was evaluated to 0.9mm and the angular reconstruction accuracy to 1.79°.
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Dates et versions

hal-00214270 , version 1 (23-01-2008)

Identifiants

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Michael Baumann, Vincent Daanen, Antoine Leroy, Jocelyne Troccaz. 3D-Ultrasound probe calibration for computer-guided diagnosis and therapy. 2nd International workshop on Computer Vision Approaches to Medical Image Analysis - CVAMIA'06, May 2006, Graz, Austria. pp.248-259. ⟨hal-00214270⟩
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