A robustness measure for singular point and index estimation in discretized orientation and vector fields

Research output: Contribution to journalConference articleContributedpeer-review

Contributors

Abstract

The identification of singular points or topological defects in discretized vector fields occurs in diverse areas ranging from the polarization of the cosmic microwave background to liquid crystals to fingerprint recognition and bio-medical imaging. Due to their discrete nature, defects and their topological charge cannot depend continuously on each single vector, but they discontinuously change as soon as a vector changes by more than a threshold. Considering this threshold of admissible change at the level of vectors, we develop a robustness measure for discrete defect estimators. Here, we compare different template paths for defect estimation in discretized vector or orientation fields. Sampling prototypical vector field patterns around defects shows that the robustness increases with the length of template path, but less so in the presence of noise on the vectors. We therefore find an optimal trade-off between resolution and robustness against noise for relatively small templates, except for the “single pixel” defect analysis, which cannot exclude zero robustness. The presented robustness measure paves the way for uncertainty quantification of defects in discretized vector fields.

Details

Original languageEnglish
Article numbere202000261
JournalProceedings in Applied Mathematics and Mechanics: PAMM
Volume20
Issue number1
Publication statusPublished - 1 Jan 2021
Peer-reviewedYes

Symposium

Title91nd Annual Meeting of the International Association of applied Mathematics and Mechanics
Abbreviated titleGAMM 2020@21
Conference number91
Duration15 - 19 March 2021
Degree of recognitionInternational event
Locationonline
CityKassel
CountryGermany

External IDs

ORCID /0000-0003-4414-4340/work/142252178

Keywords