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Authors: B. Whited 1 ; J. Rossignac 1 ; G. Slabaugh 2 ; T. Fang 2 and G. Unal 2

Affiliations: 1 Georgia Institute of Technology, Graphics, Visualization and Usability Center, United States ; 2 Siemens Corporate Research, United States

Related Ontology Subjects/Areas/Topics: Computer Vision, Visualization and Computer Graphics ; Feature Extraction ; Features Extraction ; Image and Video Analysis ; Informatics in Control, Automation and Robotics ; Medical Image Analysis ; Segmentation and Grouping ; Signal Processing, Sensors, Systems Modeling and Control

Abstract: We introduce a novel segmentation technique, called Pearling, for the semi-automatic extraction of idealized models of networks of strokes (variable width curves) in images. These networks may for example represent roads in an aerial photograph, vessels in a medical scan, or strokes in a drawing. The operator seeds the process by selecting representative areas of good (stroke interior) and bad colors. Then, the operator may either provide a rough trace through a particular path in the stroke graph or simply pick a starting point (seed) on a stroke and a direction of growth. Pearling computes in realtime the centerlines of the strokes, the bifurcations, and the thickness function along each stroke, hence producing a purified medial axis transform of a desired portion of the stroke graph. No prior segmentation or thresholding is required. Simple gestures may be used to trim or extend the selection or to add branches. The realtime performance and reliability of Pearling results from a n ovel disk-sampling approach, which traces the strokes by optimizing the positions and radii of a discrete series of disks (pearls) along the stroke. A continuous model is defined through subdivision. By design, the idealized pearl string model is slightly wider than necessary to ensure that it contains the stroke boundary. A narrower core model that fits inside the stroke is computed simultaneously. The difference between the pearl string and its core contains the boundary of the stroke and may be used to capture, compress, visualize, or analyze the raw image data along the stroke boundary. (More)

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Paper citation in several formats:
Whited, B.; Rossignac, J.; Slabaugh, G.; Fang, T. and Unal, G. (2008). Pearling: Stroke Segmentation with Crusted Pearl Strings. In Proceedings of the 1st International Workshop on Image Mining Theory and Applications IMTA 2008 (VISIGRAPP 2008) - IMTA; ISBN 978-989-8111-25-8, SciTePress, pages 103-112. DOI: 10.5220/0002340801030112

@conference{imta08,
author={B. Whited. and J. Rossignac. and G. Slabaugh. and T. Fang. and G. Unal.},
title={Pearling: Stroke Segmentation with Crusted Pearl Strings},
booktitle={Proceedings of the 1st International Workshop on Image Mining Theory and Applications IMTA 2008 (VISIGRAPP 2008) - IMTA},
year={2008},
pages={103-112},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0002340801030112},
isbn={978-989-8111-25-8},
}

TY - CONF

JO - Proceedings of the 1st International Workshop on Image Mining Theory and Applications IMTA 2008 (VISIGRAPP 2008) - IMTA
TI - Pearling: Stroke Segmentation with Crusted Pearl Strings
SN - 978-989-8111-25-8
AU - Whited, B.
AU - Rossignac, J.
AU - Slabaugh, G.
AU - Fang, T.
AU - Unal, G.
PY - 2008
SP - 103
EP - 112
DO - 10.5220/0002340801030112
PB - SciTePress