Search results for "Meri"

showing 10 items of 7596 documents

Numerical evaluation of multiple polylogarithms

2004

Multiple polylogarithms appear in analytic calculations of higher order corrections in quantum field theory. In this article we study the numerical evaluation of multiple polylogarithms. We provide algorithms, which allow the evaluation for arbitrary complex arguments and without any restriction on the weight. We have implemented these algorithms with arbitrary precision arithmetic in C++ within the GiNaC framework.

AlgebraHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Hardware and ArchitectureNumerical analysisArbitrary-precision arithmeticFOS: Physical sciencesGeneral Physics and AstronomyOrder (ring theory)Computer Science::Symbolic ComputationQuantum field theoryMathematics
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A note on multiple summing operators and applications

2018

We prove a new result on multiple summing operators and, among other results and applications, we provide a new extension of Littlewood’s 4 / 3 inequality to m-linear forms.

AlgebraMathematics - Functional AnalysisAlgebra and Number TheoryInequalitymedia_common.quotation_subjectFOS: Mathematics010103 numerical & computational mathematicsExtension (predicate logic)0101 mathematics01 natural sciencesMathematicsmedia_commonFunctional Analysis (math.FA)
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New Families of Symplectic Runge-Kutta-Nyström Integration Methods

2001

We present new 6-th and 8-th order explicit symplectic Runge-Kutta-Nystrom methods for Hamiltonian systems which are more efficient than other previously known algorithms. The methods use the processing technique and non-trivial flows associated with different elements of the Lie algebra involved in the problem. Both the processor and the kernel are compositions of explicitly computable maps.

AlgebraRunge–Kutta methodsKernel (image processing)Lie algebraOrder (group theory)Mathematics::Numerical AnalysisSymplectic geometryHamiltonian systemMathematics
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Periodic Polynomial Splines

2018

In this chapter, the spaces of periodic polynomial splines and the Spline Harmonic Analysis (SHA) in these spaces are briefly outlined. The stuff of this chapter is used for the design of periodic discrete-time splines and discrete-time-spline-based wavelets and wavelet packets. For a detailed description of the subject we refer to (Averbuch, Neittaanmaki and Zheludev, Spline and Spline Wavelet Methods with Applications to Signal and Image Processing, Springer, Berlin, 2014) [1]. Periodic polynomial splines provide an example of mixed discrete-continuous circular convolution.

AlgebraSpline (mathematics)Reciprocal polynomialComputer Science::GraphicsBox splineWaveletComputer scienceSpline waveletCircular convolutionMonic polynomialMathematics::Numerical AnalysisMatrix polynomial
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An algebraic multigrid based shifted-Laplacian preconditioner for the Helmholtz equation

2007

A preconditioner defined by an algebraic multigrid cycle for a damped Helmholtz operator is proposed for the Helmholtz equation. This approach is well suited for acoustic scattering problems in complicated computational domains and with varying material properties. The spectral properties of the preconditioned systems and the convergence of the GMRES method are studied with linear, quadratic, and cubic finite element discretizations. Numerical experiments are performed with two-dimensional problems describing acoustic scattering in a cross-section of a car cabin and in a layered medium. Asymptotically the number of iterations grows linearly with respect to the frequency while for lower freq…

Algebraic multigrid methodPhysics and Astronomy (miscellaneous)Helmholtz equationGMRESMathematics::Numerical Analysissymbols.namesakeMultigrid methodQuadratic equationHelmholtz equationäärellisten elementtien menetelmäMathematicsNumerical AnalysisPreconditionerApplied MathematicspohjustinMathematical analysisAlgebrallinen multigrid-menetelmäHelmholzin yhtälöComputer Science::Numerical AnalysisGeneralized minimal residual methodFinite element methodComputer Science ApplicationselementtimenetelmäComputational MathematicsModeling and SimulationHelmholtz free energysymbolsPreconditionerLaplace operatorJournal of Computational Physics
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A damping preconditioner for time-harmonic wave equations in fluid and elastic material

2009

A physical damping is considered as a preconditioning technique for acoustic and elastic wave scattering. The earlier preconditioners for the Helmholtz equation are generalized for elastic materials and three-dimensional domains. An algebraic multigrid method is used in approximating the inverse of damped operators. Several numerical experiments demonstrate the behavior of the method in complicated two-dimensional and three-dimensional domains. peerReviewed

Algebraic multigrid methodPhysics and Astronomy (miscellaneous)Helmholtz equationGMRESNavier equationMathematics::Numerical AnalysisMultigrid methodHelmholtz equationäärellisten elementtien menetelmäMathematicsElastic scatteringNumerical AnalysisNavierin yhtälöPreconditionerApplied MathematicsMathematical analysispohjustinAcoustic waveWave equationAlgebrallinen multigrid-menetelmäHelmholzin yhtälöGeneralized minimal residual methodComputer Science::Numerical AnalysisFinite element methodComputer Science ApplicationselementtimenetelmäComputational MathematicsClassical mechanicsModeling and SimulationPreconditioner
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Skaitļu teorija: lekcijas, lasītas Latvijas Universitātes Matemātikas un dabas zinātņu fakultātē

1936

Lekcijas sakārtojis Fogels, Ernests ; rediģējis Lūsis, Arvīds.

Algebraic number theoryNumber theoryAritmētiskās funkcijas:MATHEMATICS::Applied mathematics::Numerical analysis [Research Subject Categories]Arithmetic functionsNumbers rationalMatemātikaKongruenti skaitļiAlgebriskā skaitļu teorijaSkaitļu teorijaSkaitļi racionālie
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The Bernstein Basis and its applications in solving geometric constraint systems

2012

International audience; This article reviews the properties of Tensorial Bernstein Basis (TBB) and its usage, with interval analysis, for solving systems of nonlinear, univariate or multivariate equations resulting from geometric constraints. TBB are routinely used in computerized geometry for geometric modelling in CAD-CAM, or in computer graphics. They provide sharp enclosures of polynomials and their derivatives. They are used to reduce domains while preserving roots of polynomial systems, to prove that domains do not contain roots, and to make existence and uniqueness tests. They are compatible with standard preconditioning methods and fit linear program- ming techniques. However, curre…

Algebraic systems[ INFO.INFO-NA ] Computer Science [cs]/Numerical Analysis [cs.NA]Univariate and multivariate polynomials[INFO.INFO-NA] Computer Science [cs]/Numerical Analysis [cs.NA]ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION[INFO.INFO-NA]Computer Science [cs]/Numerical Analysis [cs.NA]Geometric constraint solving. Bernstein polytopeTensorial Bernstein basis
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A Teaching proposal for the study of eigenvectors and eigenvalues

2017

[EN] In this work, we present a teaching proposal which emphasizes on visualization and physical applications in the study of eigenvectors and eigenvalues. These concepts are introduced using the notion of the moment of inertia of a rigid body and the GeoGebra software. The proposal was motivated after observing students¿ difficulties when treating eigenvectors and eigenvalues from a geometric point of view. It was designed following a particular sequence of activities with the schema: exploration, introduction of concepts, structuring of knowledge and application, and considering the three worlds of mathematical thinking provided by Tall: embodied, symbolic and formal.

Algebras LinearMoments d'inèrciaComputer scienceÀlgebra lineal -- EnsenyamentMathematicsofComputing_NUMERICALANALYSISMathematics education -- Algebralcsh:TechnologyStructuringEducationMoments of inertiaSoftwareUndergraduate mathematics educationSchema (psychology):Ensenyament i aprenentatge::Ensenyament universitari [Àrees temàtiques de la UPC]Ensenyament universitari0501 psychology and cognitive sciencesLinear algebraundergraduate mathematics educationMatemàtica -- Educació secundàriaEigenvalues and eigenvectorsundergraduate mathematics education linear algebra eigenvectors and eigenvalues moments of inertia GeoGebralcsh:LC8-6691moments of inertialcsh:Special aspects of educationlcsh:Tbusiness.industry05 social sciences050301 educationEigenvaluesRigid bodyVisualizationAlgebraGeoGebraValors propislinear algebralcsh:TA1-2040Embodied cognitionLinear algebralcsh:Llcsh:Engineering (General). Civil engineering (General)EigenvectorsbusinessMATEMATICA APLICADA0503 educationEigenvectors and eigenvalueseigenvectors and eigenvalueslcsh:Education050104 developmental & child psychology
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Isomerization of C5–C7 n-alkanes on unidirectional large pore zeolites: activity, selectivity and adsorption features

2001

Abstract The hydroisomerization–hydrocracking of nC5–nC7 is studied with a 12MR unidirectional zeolite (ITQ-4). Selectivity and kinetic parameters indicate that differences in pore topology are more important than acidity for determining isomerization selectivity. The adsorption of the paraffins is determined by van der Waals interactions.

Alkanechemistry.chemical_classificationChemistryGeneral ChemistryMolecular sieveCatalysisMordenitesymbols.namesakeAdsorptionsymbolsPhysical chemistryOrganic chemistryvan der Waals forceZeoliteSelectivityIsomerizationCatalysis Today
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