Search results for "Shape"

showing 10 items of 585 documents

On Fixed Point (Trial) Methods for Free Boundary Problems

1992

In this note we consider the trial methods for solving steady state free boundary problems. For two test examples (electrochemical machining and continuous casting) we discuss the convergence of a fixed point method. Moreover, using the techniques of shape optimization we introduce a modification of the method, which gives us superlinear convergence rate. This is also confirmed numerically.

Continuous castingSteady state (electronics)Fixed-point iterationConvergence (routing)Applied mathematicsBoundary (topology)Shape optimizationFixed pointElectrochemical machiningMathematics
researchProduct

Symmetry breaking in a constrained cheeger type isoperimetric inequality

2015

We study the optimal constant in a Sobolev inequality for BV functions with zero mean value and vanishing outside a bounded open set. We are interested in finding the best possible embedding constant in terms of the measure of the domain alone. We set up an optimal shape problem and we completely characterize the behavior of optimal domains.

Control and OptimizationOptimal shapeZero (complex analysis)Symmetry and asymmetryMeasure (mathematics)Sobolev inequalityCheeger inequalityCombinatoricsComputational MathematicsMathematics - Analysis of PDEsOptimization and Control (math.OC)Control and Systems EngineeringSettore MAT/05 - Analisi MatematicaFOS: MathematicsExponentSymmetry breakingIsoperimetric inequalitySymmetry (geometry)Constant (mathematics)Mathematics - Optimization and ControlAnalysis of PDEs (math.AP)Mathematics
researchProduct

A boundary controllability approach in optimal shape design problems

2005

We indicate a formulation of optimal shape design problems as boundary control problems, based on some approximate controllability-type results. Numerical examples and a comparison with the standard method are included.

ControllabilityShape designControl theoryComputer scienceBoundary (topology)Shape optimization
researchProduct

Controllability-type properties for elliptic systems and applications

1991

We consider approximate and exact controllability results for elliptic problems. These results enable one to formulate optimal shape design problems in a fixed domain with certain boundary conditions.

ControllabilityShape designElliptic systemsMathematical analysisBoundary value problemType (model theory)MathematicsDomain (software engineering)
researchProduct

A comparative study of partitioning methods for crowd simulations

2010

The simulation of large crowds of autonomous agents with realistic behavior is still a challenge for several computer research communities. In order to handle large crowds, some scalable architectures have been proposed. Nevertheless, the effective use of distributed systems requires the use of partitioning methods that can properly distribute the workload generated by agents among the existing distributed resources. In this paper, we analyze the use of irregular shape regions (convex hulls) for solving the partitioning problem. We have compared a partitioning method based on convex hulls with two techniques that use rectangular regions. The performance evaluation results show that the conv…

Convex hullMathematical optimizationFitness functionHeuristicComputer scienceDistributed computingIrregular shapeAutonomous agentRegular polygonLoad balancing (computing)Partition (database)CrowdsScalabilityCrowd simulationSoftwareApplied Soft Computing
researchProduct

A more efficient method for clustering sheet metal shapes

2007

The nesting of two-dimensional irregular shapes is a common problem which is frequently encountered by a number of industries where raw material has to be, as economically as possible, cut from a given stock sheet. A frequently recurring problem as far as cutting stock is concerned, is how to obtain the best nesting of some pieces of flat patterns which occupy minimalarea convex enclosure. The area of convex enclosure is related to the convex hull of the union of patterns which can be imagined as a large rubber band surrounding the set of all polygons. Our goal is to automatically obtain the smallest area convex shape containing all the patterns. As a matter of fact, Cheng and Rao have prop…

Convex hullMathematical optimizationPoint in polygonPolygon coveringMechanics of MaterialsComputer scienceMechanical EngineeringStar-shaped polygonPolygonConvex setGeneral Materials SciencePolygon meshRectilinear polygon
researchProduct

Granulometric moments and corneal endothelium status

2001

Abstract Specular microscopy is a common practice in Ophthalmology. The corneal endothelium status is usually evaluated by means of the density, the hexagonality, the mean, the standard deviation and the coefficient of variation of cell areas. We propose to replace the cell area moments by the corresponding moments of a different probability distribution, the granulometric size distribution associated to a disc. All cells touching the frame are ignored by the area moments but used by the granulometric moments. Twenty images have been analyzed. When the size of the focused region is reduced, the area moments show a greater variation than the corresponding granulometric moments.

Corneal endotheliumArtificial IntelligenceCoefficient of variationSignal ProcessingMathematical analysisSPECULAR MICROSCOPYStatisticsProbability distributionComputer Vision and Pattern RecognitionSoftwareStandard deviationShape analysis (digital geometry)MathematicsPattern Recognition
researchProduct

Granulometric analysis of corneal endothelium specular images by using a germ–grain model

2007

Specular microscopy is widely used to study the human corneal endothelium status in vivo. In this paper, the corneal endothelium is represented as a binary image composed of the cell inscribed circles. The granulometric distribution function of the complement of this image is used as a functional descriptor, which provides information about the shape, size and spatial arrangement of cells. Experimental evaluation using bootstrap techniques shows its ability to discriminate between controls and pathological cases. It represents a reliable and graphical alternative to the classical indices (cell density, hexagonality and coefficient of variation of cell areas), which behave poorly when detect…

Corneal endotheliumMaterials sciencegenetic structuresCell CountHealth InformaticsCell densityImage Processing Computer-AssistedHumansComputer SimulationComputer visionGermSpecular reflectionCell SizeMicroscopyFourier Analysisbusiness.industryBinary imageEndothelium CornealNumerical Analysis Computer-AssistedComputer Science ApplicationsOphthalmoscopySPECULAR MICROSCOPYArtificial intelligenceBiological systembusinessSoftwareShape analysis (digital geometry)Computers in Biology and Medicine
researchProduct

A granulometric analysis of specular microscopy images of human corneal endothelia

2005

The inner layer of the human cornea, called the corneal endothelium, plays an important role in the maintenance of corneal transparency. Specular microscopy is the most widely used technique to study the corneal endothelium in vivo. Improvements in technology have allowed us to obtain good quality specular images, but the detection and quantification of small size-shape cell changes is not obvious, specially when the physician wants to evaluate endothelial cell changes after some surgical procedures. This paper proposes a methodology to analyze specular microscopy images. Every corneal endothelium is described by means of different cumulative distribution functions or some moments (mean, st…

Corneal endotheliumgenetic structuresCoefficient of variationCumulative distribution functioneye diseasesStandard deviationmedicine.anatomical_structureSkewnessCorneaSignal ProcessingmedicineKurtosissense organsComputer Vision and Pattern RecognitionSoftwareShape analysis (digital geometry)MathematicsBiomedical engineeringComputer Vision and Image Understanding
researchProduct

Classifying human endothelial cells based on individual granulometric size distributions

2002

Abstract This paper presents an application to a medical problem of methods of shape analysis based on mathematical morphology. The medical problem consists on the detection of abnormalities in the corneal endothelium, a tissue composed by quasi-planar cells of ideally regular hexagonal shape. Images of this tissue are taken by a specular microscope and used to evaluate the corneal endothelium status. Up to now, cell density, hexagonality and an analysis of cell areas are the usual descriptors of a corneal endothelium. These parameters are not sensitive enough to detect subtle lesions. What this paper proposes is an analysis based on granulometries, which are size-shape descriptors widely u…

Corneal endotheliumgenetic structuresComputer scienceHexagonal crystal systemSignal ProcessingCell densitySPECULAR MICROSCOPYCell analysisComputer Vision and Pattern RecognitionMathematical morphologyBiological systemShape analysis (digital geometry)Image and Vision Computing
researchProduct