6533b82afe1ef96bd128c431
RESEARCH PRODUCT
Robust three-dimensional best-path phase-unwrapping algorithm that avoids singularity loops.
Miguel Arevalillo-herráezFrancis LilleyHussein S. Abdul-rahmanMunther A. GdeisatDaniel SheltrawDavid R. BurtonChristopher J MooreMohammed QudeisatMichael J. Lalorsubject
Synthetic aperture radarOptics and PhotonicsTime FactorsComputer scienceMaterials Science (miscellaneous)Physics::Medical PhysicsIndustrial and Manufacturing EngineeringGeneralLiterature_MISCELLANEOUSQA76Pattern Recognition AutomatedQuantitative Biology::Subcellular ProcessesSingularityRobustness (computer science)Artificial IntelligenceImage Interpretation Computer-AssistedComputer SimulationBusiness and International ManagementQAQuantitative Biology::BiomoleculesT1Phantoms ImagingModels TheoreticalPhase unwrappingMagnetic Resonance ImagingProgramming LanguagesPhase retrievalAlgorithmAlgorithmsSoftwaredescription
In this paper we propose a novel hybrid three-dimensional phase-unwrapping algorithm, which we refer to here as the three-dimensional best-path avoiding singularity loops (3DBPASL) algorithm. This algorithm combines the advantages and avoids the drawbacks of two well-known 3D phase-unwrapping algorithms, namely, the 3D phase-unwrapping noise-immune technique and the 3D phase-unwrapping best-path technique. The hybrid technique presented here is more robust than its predecessors since it not only follows a discrete unwrapping path depending on a 3D quality map, but it also avoids any singularity loops that may occur in the unwrapping path. Simulation and experimental results have shown that the proposed algorithm outperforms its parent techniques in terms of reliability and robustness.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-08-01 | Applied optics |