Shortest Paths in Graphs with Matrix-Valued Edges: Concepts,Algorithm and Application to 3D Multi-Shape Analysis

Viktoria Ehm, Daniel Cremers, Florian Bernard

Publikation: Beitrag in Buch/Bericht/KonferenzbandKonferenzbeitragBegutachtung

Abstract

Finding shortest paths in a graph is relevant for numerous problems in computer vision and graphics,including image segmentation,shape matching,or the computation of geodesic distances on discrete surfaces. Traditionally,the concept of a shortest path is considered for graphs with scalar edge weights,which makes it possible to compute the length of a path by adding up the individual edge weights. Yet,graphs with scalar edge weights are severely limited in their expressivity,since oftentimes edges are used to encode significantly more complex interrelations. In this work we compensate for this modelling limitation and introduce the novel graph-theoretic concept of a shortest path in a graph with matrix-valued edges. To this end,we define a meaningful way for quantifying the path length for matrix-valued edges,and we propose a simple yet effective algorithm to compute the respective shortest path. While our formalism is universal and thus applicable to a wide range of settings in vision,graphics and beyond,we focus on demonstrating its merits in the context of 3D multi-shape analysis.

OriginalspracheEnglisch
TitelProceedings - 2021 International Conference on 3D Vision, 3DV 2021
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
Seiten1186-1195
Seitenumfang10
ISBN (elektronisch)9781665426886
DOIs
PublikationsstatusVeröffentlicht - 2021
Veranstaltung9th International Conference on 3D Vision, 3DV 2021 - Virtual, Online, Großbritannien/Vereinigtes Königreich
Dauer: 1 Dez. 20213 Dez. 2021

Publikationsreihe

NameProceedings - 2021 International Conference on 3D Vision, 3DV 2021

Konferenz

Konferenz9th International Conference on 3D Vision, 3DV 2021
Land/GebietGroßbritannien/Vereinigtes Königreich
OrtVirtual, Online
Zeitraum1/12/213/12/21

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