Search results for "Linear system"

showing 10 items of 1558 documents

A rescaling algorithm for the numerical solution to the porous medium equation in a two-component domain

2016

Abstract The aim of this paper is to design a rescaling algorithm for the numerical solution to the system of two porous medium equations defined on two different components of the real line, that are connected by the nonlinear contact condition. The algorithm is based on the self-similarity of solutions on different scales and it presents a space-time adaptable method producing more exact numerical solution in the area of the interface between the components, whereas the number of grid points stays fixed.

Numerical AnalysisInterface (Java)Component (thermodynamics)Applied Mathematics010102 general mathematicsMathematical analysisGrid01 natural sciencesDomain (mathematical analysis)010101 applied mathematicsNonlinear systemModeling and SimulationContact condition0101 mathematicsPorous mediumAlgorithmReal lineMathematicsCommunications in Nonlinear Science and Numerical Simulation
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Active macro-zone approach for incremental elastoplastic-contact analysis

2013

SUMMARY The symmetric boundary element method, based on the Galerkin hypotheses, has found an application in the nonlinear analysis of plasticity and in contact-detachment problems, but both dealt with separately. In this paper, we want to treat these complex phenomena together as a linear complementarity problem. A mixed variable multidomain approach is utilized in which the substructures are distinguished into macroelements, where elastic behavior is assumed, and bem-elements, where it is possible that plastic strains may occur. Elasticity equations are written for all the substructures, and regularity conditions in weighted (weak) form on the boundary sides and in the nodes (strong) betw…

Numerical AnalysisNonlinear systemMatrix (mathematics)Applied MathematicsMathematical analysisGeneral EngineeringContact analysisBoundary (topology)Galerkin methodBoundary element methodLinear complementarity problemMathematicsVariable (mathematics)International Journal for Numerical Methods in Engineering
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Corrigendum to “Fractional differential equations solved by using Mellin transform” [Commun Nonlinear Sci Numer Simul 19(7) (2014) 2220–2227]

2015

Numerical AnalysisNonlinear systemMellin transformApplied MathematicsModeling and SimulationMathematical analysisFractional differentialMathematicsCommunications in Nonlinear Science and Numerical Simulation
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Implicit analytic solutions for a nonlinear fractional partial differential beam equation

2020

Abstract Analytic solutions in implicit form are derived for a nonlinear partial differential equation (PDE) with fractional derivative elements, which can model the dynamics of a deterministically excited Euler-Bernoulli beam resting on a viscoelastic foundation. Specifically, the initial-boundary value problem for the corresponding PDE is reduced to an initial value problem for a nonlinear ordinary differential equation in a Hilbert space. Next, by employing the cosine and sine families of operators, a variation of parameters representation of the solution map is introduced. Due to the presence of a nonlinear term, a local fixed point theorem is employed to prove the local existence and u…

Numerical AnalysisPartial differential equationApplied MathematicsCosine and sine families of operatorHilbert spacePartial differential equationFractional derivativeVariation of parameters01 natural sciencesImplicit analytic solution010305 fluids & plasmasFractional calculusNonlinear systemsymbols.namesakeModeling and Simulation0103 physical sciencessymbolsPartial derivativeInitial value problemApplied mathematicsBoundary value problem010306 general physicsMathematicsNonlinear beam
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Efficient numerical method for simulating static and dynamic properties of superfluid helium

2004

Density functional theory (DFT) offers computationally affordable way of describing static and dynamic properties of superfluid 4He. In general, the DFT models yield single particle-like Schrodinger equations with a nonlinear potential term that accounts for all the many-body interactions. The resulting equations can be solved for small amplitude plane wave excitations in the bulk whereas fully numerical solution must be sought in more complicated cases. In this paper we propose a numerical method that can be used in solving the time-dependent nonlinear Schrodinger equation in both real and imaginary times. The method is based on operator splitting technique where each component operator is…

Numerical AnalysisPhysics and Astronomy (miscellaneous)Applied MathematicsNumerical analysisOperator (physics)Plane waveComputer Science ApplicationsSchrödinger equationComputational Mathematicssymbols.namesakeNonlinear systemClassical mechanicsModeling and SimulationsymbolsCrank–Nicolson methodNonlinear Schrödinger equationSuperfluid helium-4MathematicsJournal of Computational Physics
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The MAST-edge centred lumped scheme for the flow simulation in variably saturated heterogeneous porous media

2012

A novel methodology is proposed for the solution of the flow equation in a variably saturated heterogeneous porous medium. The computational domain is descretized using triangular meshes and the governing PDEs are discretized using a lumped in the edge centres numerical technique. The dependent unknown variable of the problem is the piezometric head. A fractional time step methodology is applied for the solution of the original system, solving consecutively a prediction and a correction problem. A scalar potential of the flow field exists and in the prediction step a MArching in Space and Time (MAST) formulation is applied for the sequential solution of the Ordinary Differential Equation of…

Numerical AnalysisPhysics and Astronomy (miscellaneous)DiscretizationApplied MathematicsLinear systemScalar potentialGeometryFinite element methodSettore ICAR/01 - IdraulicaComputer Science ApplicationsComputational MathematicsHydraulic headRate of convergenceVariably saturated porous medium Numerical model Finite element Lumped scheme Mass conservation Unstructured mesh Analytical solutionModeling and SimulationOrdinary differential equationApplied mathematicsVariably saturated porous medium Numerical model Finite element Lumped scheme Mass conservation Unstructured mesh Analytical solutionConservation of massMathematicsJournal of Computational Physics
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Time-harmonic elasticity with controllability and higher-order discretization methods

2008

The time-harmonic solution of the linear elastic wave equation is needed for a variety of applications. The typical procedure for solving the time-harmonic elastic wave equation leads to difficulties solving large-scale indefinite linear systems. To avoid these difficulties, we consider the original time dependent equation with a method based on an exact controllability formulation. The main idea of this approach is to find initial conditions such that after one time-period, the solution and its time derivative coincide with the initial conditions.The wave equation is discretized in the space domain with spectral elements. The degrees of freedom associated with the basis functions are situa…

Numerical AnalysisPhysics and Astronomy (miscellaneous)DiscretizationApplied MathematicsMathematical analysisLinear systemWave equationComputer Science ApplicationsControllabilityComputational Mathematicssymbols.namesakeModeling and SimulationDiagonal matrixTime derivativesymbolsGaussian quadratureSpectral methodMathematics
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Partial differential equations governed by accretive operators

2012

The theory of nonlinear semigroups in Banach spaces generated by accretive operators has been very useful in the study of many nonlinear partial differential equations Such a theory is fundamentally based in the Crandall-Liggett Theorem and in the contributions of Ph. Benilan. In this paper, after outlining some of the main points of this theory, we present some of the applications to some nonlinear partial differential equations that appear in different fields of Science.

Numerical AnalysisPure mathematicsConstant coefficientsControl and OptimizationApplied MathematicsMathematical analysisOperator theoryFourier integral operatorStochastic partial differential equationNonlinear systemDistributed parameter systemModeling and SimulationC0-semigroupNumerical partial differential equationsMathematicsSeMA Journal
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Nonlinear concave-convex problems with indefinite weight

2021

We consider a parametric nonlinear Robin problem driven by the p-Laplacian and with a reaction having the competing effects of two terms. One is a parametric (Formula presented.) -sublinear term (concave nonlinearity) and the other is a (Formula presented.) -superlinear term (convex nonlinearity). We assume that the weight of the concave term is indefinite (that is, sign-changing). Using the Nehari method, we show that for all small values of the parameter (Formula presented.), the problem has at least two positive solutions and also we provide information about their regularity.

Numerical AnalysisPure mathematicslocal minimizerspositive solutionsNehari manifoldApplied MathematicsRegular polygonLagrange multiplierComputational MathematicsNonlinear systemSettore MAT/05 - Analisi Matematicanonlinear regularityAnalysisMathematics
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A velocity–diffusion method for a Lotka–Volterra system with nonlinear cross and self-diffusion

2009

The aim of this paper is to introduce a deterministic particle method for the solution of two strongly coupled reaction-diffusion equations. In these equations the diffusion is nonlinear because we consider the cross and self-diffusion effects. The reaction terms on which we focus are of the Lotka-Volterra type. Our treatment of the diffusion terms is a generalization of the idea, introduced in [P. Degond, F.-J. Mustieles, A deterministic approximation of diffusion equations using particles, SIAM J. Sci. Stat. Comput. 11 (1990) 293-310] for the linear diffusion, of interpreting Fick's law in a deterministic way as a prescription on the particle velocity. Time discretization is based on the …

Numerical AnalysisSelf-diffusionDiffusion equationDiscretizationNonlinear diffusionADI schemeApplied MathematicsNumerical analysisMathematical analysisParticle methodComputational MathematicsNonlinear systemReaction–diffusion systemPattern formationParticle velocityReaction-diffusionDiffusion (business)Travelling frontsMathematicsApplied Numerical Mathematics
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