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Multiresolution eXtended Free-Form Deformations (XFFD) for non-rigid registration with discontinuous transforms

Submitting institution: The University of Leeds
Unit of assessment: 11 - Computer Science and Informatics
Output identifier: UOA11-4201
Type: D - Journal article
DOI: 10.1016/j.media.2016.10.008
Title of journal: Medical Image Analysis
Article number: -
First page: 113
Volume: 36
Issue: -
ISSN: 1361-8415
Open access status: Technical exception
Month of publication: November
Year of publication: 2016
URL: -
Supplementary information: -
Request cross-referral to: -
Output has been delayed by COVID-19: No
COVID-19 affected output statement: -
Forensic science: No
Criminology: No
Interdisciplinary: Yes
Number of additional authors: 3
Research group(s): B - AI (Artificial Intelligence)
Citation count: 13
Proposed double-weighted: No
Reserve for an output with double weighting: No
Additional information: Provides first formal framework dealing with mathematical discontinuities in free-form deformations (FFD) for image registration. Builds on a key observation widely disregarded in the community that such discontinuities are omnipresent in tissue-tissue transitions (e.g., myocardium-blood, lung-ribs, etc.). Demonstrates imposing continuity/smoothness ubiquitously across transitions leads to artefacts/increased errors near the discontinuity/interface potentially masking diagnostic information. Key contribution borrows from eXtended Finite Element Method (XFEM). The significance is considerable as non-rigid medical registration is central to most critical image-based diagnoses and therapy guidance whose results are otherwise invalid. Central component of motion compensation workstream in CRUK-funded Radiation Centre at Leeds (C19942/A28832).
Author contribution statement: -
Non-English: No
English abstract: -