0000000000300601

AUTHOR

Elmar Schoemer

showing 8 related works from this author

Chebyshev’s Method on Projective Fluids

2020

We demonstrate the acceleration potential of the Chebyshev semi-iterative approach for fluid simulations in Projective Dynamics. The Chebyshev approach has been successfully tested for deformable bodies, where the dynamical system behaves relatively linearly, even though Projective Dynamics, in general, is fundamentally nonlinear. The results for more complex constraints, like fluids, with a particular nonlinear dynamical system, remained unknown so far. We follow a method describing particle-based fluids in Projective Dynamics while replacing the Conjugate Gradient solver with Chebyshev’s method. Our results show that Chebyshev’s method can be successfully applied to fluids and potentially…

Conjugate gradient solverComputer sciencesimulace tekutinanimationAcceleration (differential geometry)02 engineering and technologyDynamical systemChebyshev filternonlinear optimization0202 electrical engineering electronic engineering information engineeringanimaceProjective testnelineární optimalizaceprojektivní dynamikaconstraint-based simulationsimulace založená na omezeníMathematical analysis020207 software engineeringComputer Graphics and Computer-Aided DesignComputational MathematicsNonlinear systemprojective dynamicsParticle020201 artificial intelligence & image processingfluid simulationProjective dynamicsSoftware
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Statistical-Dynamical Forecasting of Sub-Seasonal North Atlantic Tropical Cyclone Occurrence

2021

AbstractWhile previous research on sub-seasonal tropical cyclone (TC) occurrence has mostly focused on either the validation of numerical weather prediction (NWP) models, or the development of statistical models trained on past data, the present study combines both approaches to a statistical–dynamical model for probabilistic forecasts in the North Atlantic basin. Although state-of-the-art NWP models have been shown to lack predictive skill with respect to sub-seasonal weekly TC occurrence, they may predict the environmental conditions sufficiently well to generate predictors for a statistical model. Therefore, an extensive predictor set was generated, including predictor groups representin…

Atmospheric ScienceClimatologyEnvironmental scienceTropical cycloneWeather and Forecasting
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Artefacts in CBCT: a review

2011

Artefacts are common in today's cone beam CT (CBCT). They are induced by discrepancies between the mathematical modelling and the actual physical imaging process. Since artefacts may interfere with the diagnostic process performed on CBCT data sets, every user should be aware of their presence. This article aims to discuss the most prominent artefacts identified in the scientific literature and review the existing knowledge on these artefacts. We also briefly review the basic three-dimensional (3D) reconstruction concept applied by today's CBCT scanners, as all artefacts are more or less directly related to it.

medicine.medical_specialtyCone beam computed tomographyComputer scienceMetal artefactImage processingReviewImaging Three-DimensionalScattering radiationImage Processing Computer-AssistedmedicineHumansScattering RadiationRadiology Nuclear Medicine and imagingMedical physicsComputer visionGeneral DentistryCone beam ctPhantoms Imagingbusiness.industryGeneral MedicineCone-Beam Computed TomographyModels TheoreticalRadiographic Image EnhancementOtorhinolaryngologyArtificial intelligenceArtifactsbusinessAlgorithmsDentomaxillofacial Radiology
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Variable-Radius Offset Surface Approximation on the GPU

2020

Variable-radius offset surfaces find applications in various fields, such as variable brush strokes in 2D and 3D sketching and geometric modeling tools. In forensic facial reconstruction the skin surface can be inferred from a given skull by computing a variable-radius offset surface of the skull surface. Thereby, the skull is represented as a two-manifold triangle mesh and the facial soft tissue thickness is specified for each vertex of the mesh. We present a method to interactively visualize the wanted skin surface by rendering the variable-radius offset surfaces of all triangles of the skull mesh. We have also developed a special shader program which is able to generate a discretized vol…

Physicsshader založený na přiblížení tvaruComputer Science::GraphicsOffset (computer science)variable-radius offsettingComputer Science::Computer Vision and Pattern RecognitionQuantitative Biology::Tissues and Organsoffset s proměnným poloměremPhysics::Medical PhysicsMinkowského sumaGeometryMinkowski sumShader based shape approximationComputer Science Research Notes
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Auto calibration of a cone-beam-CT

2012

Purpose: This paper introduces a novel autocalibration method for cone-beam-CTs (CBCT) or flat-panel CTs, assuming a perfect rotation. The method is based on ellipse-fitting. Autocalibration refers to accurate recovery of the geometric alignment of a CBCT device from projection images alone, without any manual measurements. Methods: The authors use test objects containing small arbitrarily positioned radio-opaque markers. No information regarding the relative positions of the markers is used. In practice, the authors use three to eight metal ball bearings (diameter of 1 mm), e.g., positioned roughly in a vertical line such that their projection image curves on the detector preferably form l…

Cone beam computed tomographybusiness.industryComputer science3D reconstructionX-ray detectorImage processingGeneral MedicineIterative reconstructionEllipseOpticsCalibrationTomographyImage sensorbusinessImage resolutionAlgorithmMedical Physics
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Software for automated application of a reference-based method fora posterioridetermination of the effective radiographic imaging geometry

2005

Objectives: Presentation and validation of software developed for automated and accurate application of a reference-based algorithm (reference sphere method: RSM) inferring the effective imaging geometry from quantitative radiographic image analysis. Methods: The software uses modern pattern recognition and computer vision algorithms adapted for the particular application of automated detection of the reference sphere shadows (ellipses) with subpixel accuracy. It applies the RSM algorithm to the shadows detected, thereby providing threedimensional Cartesian coordinates of the spheres. If the three sphere centres do not lie on one line, they uniquely determine the imaging geometry. Accuracy …

Image formationSoftware ValidationImage registrationGeometryMandibleEllipsePattern Recognition Automatedlaw.inventionImaging Three-DimensionalSoftwareArtificial IntelligenceSoftware DesignlawImage Processing Computer-AssistedHumansSuperimpositionRadiology Nuclear Medicine and imagingCartesian coordinate systemGeneral DentistryMathematicsbusiness.industryRadiography Dental DigitalGeneral MedicineSubpixel renderingOtorhinolaryngologyCalibrationLine (geometry)businessAlgorithmsSoftwareDentomaxillofacial Radiology
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Accurate registration of random radiographic projections based on three spherical references for the purpose of few-view 3D reconstruction

2008

Precise registration of radiographic projection images acquired in almost arbitrary geometries for the purpose of three-dimensional (3D) reconstruction is beset with difficulties. We modify and enhance a registration method [R. Schulze, D. D. Bruellmann, F. Roeder, and B. d'Hoedt, Med. Phys. 31, 2849-2854 (2004)] based on coupling a minimum amount of three reference spheres in arbitrary positions to a rigid object under study for precise a posteriori pose estimation. Two consecutive optimization procedures (a, initial guess; b, iterative coordinate refinement) are applied to completely exploit the reference's shadow information for precise registration of the projections. The modification h…

Mathematical optimizationProjection (mathematics)Iterative method3D reconstructionImage registrationA priori and a posterioriImage processingGeneral MedicineIterative reconstructionAlgorithmPoseMathematicsMedical Physics
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Cost-driven framework for progressive compression of textured meshes

2019

International audience; Recent advances in digitization of geometry and radiometry generate in routine massive amounts of surface meshes with texture or color attributes. This large amount of data can be compressed using a progressive approach which provides at decoding low complexity levels of details (LoDs) that are continuously refined until retrieving the original model. The goal of such a progressive mesh compression algorithm is to improve the overall quality of the transmission for the user, by optimizing the rate-distortion trade-off. In this paper, we introduce a novel meaningful measure for the cost of a progressive transmission of a textured mesh by observing that the rate-distor…

Texture atlasDecimationadaptive quantizationmultiplexingComputer scienceGeometry compressionComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONInversesurface meshes02 engineering and technologyData_CODINGANDINFORMATIONTHEORYtexturesprogressive vs single-rate[INFO.INFO-CG]Computer Science [cs]/Computational Geometry [cs.CG]MultiplexingCCS CONCEPTS • Computing methodologies → Computer graphics020204 information systems0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingPolygon meshQuantization (image processing)AlgorithmDecoding methodsData compressionComputingMethodologies_COMPUTERGRAPHICS
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