Geometries on spaces of treelike shapes

Aasa Feragen; Francois Bernard Lauze; Pechin Chien Pau Lo; Marleen de Bruijne; Mads Nielsen

doi:10.1007/978-3-642-19309-5_13

Geometries on spaces of treelike shapes

Aasa Feragen, Francois Bernard Lauze, Pechin Chien Pau Lo, Marleen de Bruijne, Mads Nielsen

Datalogisk Institut

19 Citationer (Scopus)

Abstract

In order to develop statistical methods for shapes with a tree-structure, we construct a shape space framework for treelike shapes and study metrics on the shape space. The shape space has singularities, which correspond to topological transitions in the represented trees. We study two closely related metrics, TED and QED. The QED is a quotient euclidean distance arising from the new shape space formulation, while TED is essentially the classical tree edit distance. Using Gromov's metric geometry we gain new insight into the geometries defined by TED and QED. In particular, we show that the new metric QED has nice geometric properties which facilitate statistical analysis, such as existence and local uniqueness of geodesics and averages. TED, on the other hand, has algorithmic advantages, while it does not share the geometric strongpoints of QED. We provide a theoretical framework as well as computational results such as matching of airway trees from pulmonary CT scans and geodesics between synthetic data trees illustrating the dynamic and geometric properties of the QED metric.

Originalsprog	Engelsk
Titel	Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II
Redaktører	Ron Kimmel, Reinhard Klette, Akihiro Sugimoto
Antal sider	14
Forlag	Springer
Publikationsdato	2011
Sider	160-173
ISBN (Trykt)	978-3-642-19308-8
ISBN (Elektronisk)	978-3-642-19309-5
DOI	https://doi.org/10.1007/978-3-642-19309-5_13
Status	Udgivet - 2011
Begivenhed	10th Asian Conference on Computer Vision - Queenstown, New Zealand Varighed: 8 nov. 2010 → 12 nov. 2010 Konferencens nummer: 10

Konference

Konference	10th Asian Conference on Computer Vision
Nummer	10
Land/Område	New Zealand
By	Queenstown
Periode	08/11/2010 → 12/11/2010

Navn	Lecture notes in computer science
Vol/bind	6493
ISSN	0302-9743

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10.1007/978-3-642-19309-5_13

Citationsformater

Feragen, A., Lauze, F. B., Lo, P. C. P., de Bruijne, M., & Nielsen, M. (2011). Geometries on spaces of treelike shapes. I R. Kimmel, R. Klette, & A. Sugimoto (red.), Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II (s. 160-173). Springer. Lecture notes in computer science Bind 6493 https://doi.org/10.1007/978-3-642-19309-5_13

Geometries on spaces of treelike shapes. / Feragen, Aasa; Lauze, Francois Bernard; Lo, Pechin Chien Pau et al.

Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II. red. / Ron Kimmel; Reinhard Klette; Akihiro Sugimoto. Springer, 2011. s. 160-173 (Lecture notes in computer science, Bind 6493).

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

Feragen, A, Lauze, FB, Lo, PCP, de Bruijne, M & Nielsen, M 2011, Geometries on spaces of treelike shapes. i R Kimmel, R Klette & A Sugimoto (red), Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II. Springer, Lecture notes in computer science, bind 6493, s. 160-173, 10th Asian Conference on Computer Vision, Queenstown, New Zealand, 08/11/2010. https://doi.org/10.1007/978-3-642-19309-5_13

Feragen A, Lauze FB, Lo PCP, de Bruijne M , Nielsen M. Geometries on spaces of treelike shapes. I Kimmel R, Klette R, Sugimoto A, red., Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II. Springer. 2011. s. 160-173. (Lecture notes in computer science, Bind 6493). doi: 10.1007/978-3-642-19309-5_13

Feragen, Aasa ; Lauze, Francois Bernard ; Lo, Pechin Chien Pau et al. / Geometries on spaces of treelike shapes. Computer Vision – ACCV 2010 : 10th Asian Conference on Computer Vision, Queenstown, New Zealand, November 8-12, 2010, Revised Selected Papers, Part II. red. / Ron Kimmel ; Reinhard Klette ; Akihiro Sugimoto. Springer, 2011. s. 160-173 (Lecture notes in computer science, Bind 6493).

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abstract = "In order to develop statistical methods for shapes with a tree-structure, we construct a shape space framework for treelike shapes and study metrics on the shape space. The shape space has singularities, which correspond to topological transitions in the represented trees. We study two closely related metrics, TED and QED. The QED is a quotient euclidean distance arising from the new shape space formulation, while TED is essentially the classical tree edit distance. Using Gromov's metric geometry we gain new insight into the geometries defined by TED and QED. In particular, we show that the new metric QED has nice geometric properties which facilitate statistical analysis, such as existence and local uniqueness of geodesics and averages. TED, on the other hand, has algorithmic advantages, while it does not share the geometric strongpoints of QED. We provide a theoretical framework as well as computational results such as matching of airway trees from pulmonary CT scans and geodesics between synthetic data trees illustrating the dynamic and geometric properties of the QED metric.",

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AB - In order to develop statistical methods for shapes with a tree-structure, we construct a shape space framework for treelike shapes and study metrics on the shape space. The shape space has singularities, which correspond to topological transitions in the represented trees. We study two closely related metrics, TED and QED. The QED is a quotient euclidean distance arising from the new shape space formulation, while TED is essentially the classical tree edit distance. Using Gromov's metric geometry we gain new insight into the geometries defined by TED and QED. In particular, we show that the new metric QED has nice geometric properties which facilitate statistical analysis, such as existence and local uniqueness of geodesics and averages. TED, on the other hand, has algorithmic advantages, while it does not share the geometric strongpoints of QED. We provide a theoretical framework as well as computational results such as matching of airway trees from pulmonary CT scans and geodesics between synthetic data trees illustrating the dynamic and geometric properties of the QED metric.

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Geometries on spaces of treelike shapes

Abstract

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