Search results for "parabolic equations"

showing 10 items of 14 documents

Solution of an initial-value problem for parabolic equations via monotone operator methods

2014

We study a general initial-value problem for parabolic equations in Banach spaces, by using a monotone operator method. We provide sufficient conditions for the existence of solution to such problem.

Banach spacemetric spacesparabolic equationlcsh:Mathematicsmetric spaceMathematicsofComputing_NUMERICALANALYSISparabolic equationstransitive relationslcsh:QA1-939Banach spacestransitive relations.Settore MAT/05 - Analisi Matematicamonotone operatormonotone operatorsElectronic Journal of Differential Equations
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Some qualitative properties for the total variation flow

2002

We prove the existence of a finite extinction time for the solutions of the Dirichlet problem for the total variation flow. For the Neumann problem, we prove that the solutions reach the average of its initial datum in finite time. The asymptotic profile of the solutions of the Dirichlet problem is also studied. It is shown that the profiles are nonzero solutions of an eigenvalue-type problem that seems to be unexplored in the previous literature. The propagation of the support is analyzed in the radial case showing a behaviour entirely different to the case of the problem associated with the p-Laplacian operator. Finally, the study of the radially symmetric case allows us to point out othe…

Dirichlet problemAsymptotic behaviourMathematical analysisGeodetic datumElliptic boundary value problemOperator (computer programming)Dirichlet eigenvaluePropagation of the supportFlow (mathematics)Neumann boundary conditionNonlinear parabolic equationsPoint (geometry)Total variation flowEigenvalue type problemAnalysisMathematics
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Nonlinear Diffusion in Transparent Media

2021

Abstract We consider a prototypical nonlinear parabolic equation whose flux has three distinguished features: it is nonlinear with respect to both the unknown and its gradient, it is homogeneous, and it depends only on the direction of the gradient. For such equation, we obtain existence and uniqueness of entropy solutions to the Dirichlet problem, the homogeneous Neumann problem, and the Cauchy problem. Qualitative properties of solutions, such as finite speed of propagation and the occurrence of waiting-time phenomena, with sharp bounds, are shown. We also discuss the formation of jump discontinuities both at the boundary of the solutions’ support and in the bulk.

Dirichlet problemflux-saturated diffusion equationsGeneral Mathematicsneumann problemMathematical analysisparabolic equationsBoundary (topology)waiting time phenomenaClassification of discontinuitiesparabolic equations; dirichlet problem; cauchy problem; neumann problem; entropy solutions; flux-saturated diffusion equations; waiting time phenomena; conservation lawsNonlinear systemMathematics - Analysis of PDEsFOS: MathematicsNeumann boundary conditionInitial value problemcauchy problemUniquenessdirichlet problemconservation lawsEntropy (arrow of time)entropy solutionsAnalysis of PDEs (math.AP)MathematicsInternational Mathematics Research Notices
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Cores for parabolic operators with unbounded coefficients

2009

Abstract Let A = ∑ i , j = 1 N q i j ( s , x ) D i j + ∑ i = 1 N b i ( s , x ) D i be a family of elliptic differential operators with unbounded coefficients defined in R N + 1 . In [M. Kunze, L. Lorenzi, A. Lunardi, Nonautonomous Kolmogorov parabolic equations with unbounded coefficients, Trans. Amer. Math. Soc., in press], under suitable assumptions, it has been proved that the operator G : = A − D s generates a semigroup of positive contractions ( T p ( t ) ) in L p ( R N + 1 , ν ) for every 1 ⩽ p + ∞ , where ν is an infinitesimally invariant measure of ( T p ( t ) ) . Here, under some additional conditions on the growth of the coefficients of A , which cover also some growths with an ex…

Discrete mathematicsSemigroupApplied MathematicsNonautonomous parabolic equationsCharacterization (mathematics)Differential operatorParabolic partial differential equationCombinatoricsOperator (computer programming)Cover (topology)Evolution operatorsGradient estimatesCoresInfinitesimal generatorInvariant measureInvariant measuresAnalysisMathematicsJournal of Differential Equations
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High Order Compact Finite Difference Schemes for A Nonlinear Black-Scholes Equation

2001

A nonlinear Black-Scholes equation which models transaction costs arising in the hedging of portfolios is discretized semi-implicitly using high order compact finite difference schemes. A new compact scheme, generalizing the compact schemes of Rigal [29], is derived and proved to be unconditionally stable and non-oscillatory. The numerical results are compared to standard finite difference schemes. It turns out that the compact schemes have very satisfying stability and non-oscillatory properties and are generally more efficient than the considered classical schemes.

DiscretizationMathematical analysisFinite differenceFinite difference coefficientBlack–Scholes modelStability (probability)Parabolic partial differential equationNonlinear systemOption pricing transaction costs parabolic equations compact finite difference discretizationsValuation of optionsScheme (mathematics)Applied mathematicsddc:004General Economics Econometrics and FinanceFinanceMathematicsSSRN Electronic Journal
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Large solutions for nonlinear parabolic equations without absorption terms

2012

In this paper we give a suitable notion of entropy solution of parabolic $p-$laplacian type equations with $1\leq p<2$ which blows up at the boundary of the domain. We prove existence and uniqueness of this type of solutions when the initial data is locally integrable (for $1<p<2$) or integrable (for $p=1$; i.e the Total Variation Flow case).

Entropy solutionsIntegrable systemMathematical analysisp-LaplacianMathematics::Analysis of PDEsGeodetic datumNonlinear parabolic equationsMathematics - Analysis of PDEsentropy solutions; large solutions; p-laplacian; total variation flowp-LaplacianFOS: MathematicsLarge solutionsUniquenessTotal variation flowEntropy (arrow of time)AnalysisMathematicsAnalysis of PDEs (math.AP)Journal of Functional Analysis
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NUMERICAL ALGORITHMS

2013

For many systems of differential equations modeling problems in science and engineering, there are natural splittings of the right hand side into two parts, one non-stiff or mildly stiff, and the other one stiff. For such systems implicit-explicit (IMEX) integration combines an explicit scheme for the non-stiff part with an implicit scheme for the stiff part. In a recent series of papers two of the authors (Sandu and Zhang) have developed IMEX GLMs, a family of implicit-explicit schemes based on general linear methods. It has been shown that, due to their high stage order, IMEX GLMs require no additional coupling order conditions, and are not marred by order reduction. This work develops a …

General linear methodsMathematical optimizationIMEX methods; general linear methods; error analysis; order conditions; stability analysisIMEX methodsDifferential equationSCHEMESorder conditionsMathematics AppliedExtrapolationStability (learning theory)QUADRATIC STABILITYstability analysisPARABOLIC EQUATIONSSYSTEMSNORDSIECK METHODSFOS: MathematicsApplied mathematicsMathematics - Numerical AnalysisRUNGE-KUTTA METHODSMULTISTEP METHODSerror analysisMathematicsCONSTRUCTIONSeries (mathematics)Applied MathematicsNumerical analysisComputer Science - Numerical AnalysisStability analysisORDEROrder conditionsNumerical Analysis (math.NA)Computer Science::Numerical AnalysisRunge–Kutta methodsGeneral linear methodsError analysisORDINARY DIFFERENTIAL-EQUATIONSOrdinary differential equationgeneral linear methodsMathematics
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Diffusion Equations with Finite Speed of Propagation

2007

In this paper we summarize some of our recent results on diffusion equations with finite speed of propagation. These equations have been introduced to correct the infinite speed of propagation predicted by the classical linear diffusion theory.

Nonlinear parabolic equationsLinear diffusionPhysicsMathematical analysisFinite volume method for one-dimensional steady state diffusionDiffusion (business)
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Optimal control for state constrained two-phase Stefan problems

1991

We give a new approach to state constrained control problems associated to non-degenerate nonlinear parabolic equations of Stefan type. We obtain uniform estimates for the violation of the constraints.

Nonlinear parabolic equationsMathematical analysisMathematics::Analysis of PDEsPhase (waves)State (functional analysis)Type (model theory)Optimal controlMathematics
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QUALITATIVE PROPERTIES OF THE SOLUTIONS OF A NONLINEAR FLUX-LIMITED EQUATION ARISING IN THE TRANSPORT OF MORPHOGENS

2011

In this paper we study some qualitative properties of the solutions of a nonlinear flux-limited equation arising in the transport of morphogens in biological systems. Questions related to the existence of steady states, the finite speed of propagating fronts or the regularization in the interior of the support are studied from analytical and numerical points of view.

Nonlinear parabolic equationsNonlinear systemApplied MathematicsModeling and SimulationRegularization (physics)Mathematical analysisHeat equationMathematicsMathematical Models and Methods in Applied Sciences
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