Search results for "neuma"

showing 10 items of 154 documents

The Neumann Problem for the Total Variation Flow

2004

This chapter is devoted to prove existence and uniqueness of solutions for the minimizing total variation flow with Neumann boundary conditions, namely $$ \left\{ \begin{gathered} \frac{{\partial u}} {{\partial t}} = div\left( {\frac{{Du}} {{\left| {Du} \right|}}} \right) in Q = (0,\infty ) \times \Omega , \hfill \\ \frac{{\partial u}} {{\partial \eta }} = 0 on S = (0,\infty ) \times \partial \Omega , \hfill \\ u(0,x) = u_0 (x) in x \in \Omega , \hfill \\ \end{gathered} \right. $$ (2.1) where Ω is a bounded set in ℝ N with Lipschitz continuous boundary ∂ Ω and u0 ∈ L1(Ω). As we saw in the previous chapter, this partial differential equation appears when one uses the steepest descent method …

CombinatoricsPhysicsBounded setWeak solutionImage (category theory)Bounded functionMathematical analysisNeumann boundary conditionBoundary (topology)Context (language use)Uniqueness
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The best constant for the Sobolev trace embedding from into

2004

Abstract In this paper we study the best constant, λ 1 ( Ω ) for the trace map from W 1 , 1 ( Ω ) into L 1 ( ∂ Ω ) . We show that this constant is attained in BV ( Ω ) when λ 1 ( Ω ) 1 . Moreover, we prove that this constant can be obtained as limit when p ↘ 1 of the best constant of W 1 , p ( Ω ) ↪ L p ( ∂ Ω ) . To perform the proofs we will look at Neumann problems involving the 1-Laplacian, Δ 1 ( u ) = div ( Du / | Du | ) .

CombinatoricsSobolev spaceTrace (linear algebra)Applied MathematicsMathematical analysisNeumann boundary conditionEmbeddingTrace mapLimit (mathematics)Constant (mathematics)Laplace operatorAnalysisMathematicsNonlinear Analysis: Theory, Methods & Applications
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The 1-Harmonic Flow with Values into $\mathbb S^{1}$

2013

We introduce a notion of solution for the $1$-harmonic flow, i.e., the formal gradient flow of the total variation functional with respect to the $L^2$-distance, from a domain of $\mathbb R^m$ into a geodesically convex subset of an $N$-sphere. For such a notion, under homogeneous Neumann boundary conditions, we prove both existence and uniqueness of solutions when the target space is a semicircle and the existence of solutions when the target space is a circle and the initial datum has no jumps of an “angle” larger than $\pi$. Earlier results in [J. W. Barrett, X. Feng, and A. Prohl, SIAM J. Math. Anal., 40 (2008), pp. 1471--1498] and [X. Feng, Calc. Var. Partial Differential Equations, 37…

Computational MathematicsPartial differential equationFlow (mathematics)Applied MathematicsMathematical analysisNeumann boundary conditionHarmonic mapHarmonic (mathematics)UniquenessBalanced flowSpace (mathematics)AnalysisMathematicsSIAM Journal on Mathematical Analysis
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Probabilistic interpretation of the Calderón problem

2017

In this paper, we use the theory of symmetric Dirichlet forms to give a probabilistic interpretation of Calderon's inverse conductivity problem in terms of reflecting diffusion processes and their corresponding boundary trace processes. This probabilistic interpretation comes in three equivalent formulations which open up novel perspectives on the classical question of unique determinability of conductivities from boundary data. We aim to make this work accessible to both readers with a background in stochastic process theory as well as researchers working on deterministic methods in inverse problems.

Control and OptimizationStochastic processComputer science010102 general mathematicsProbabilistic logicBoundary (topology)Inverse problem01 natural sciencesDirichlet distributionInterpretation (model theory)010104 statistics & probabilitysymbols.namesakeModeling and SimulationNeumann boundary conditionsymbolsDiscrete Mathematics and CombinatoricsApplied mathematics0101 mathematicsAnalysisTRACE (psycholinguistics)Inverse Problems & Imaging
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Three-mode pneumatic management of marine U-tank systems

2012

Abstract This paper deals with a new pneumatic control strategy for the roll damping enhancement of marine U-tank stabilizers. The proposed technique consists in a three-mode operation, where the control is active only within a limited resonant range around the ship natural frequency, whereas the control valves are kept closed in the remaining frequency range. Moreover the connection valve between the two air chambers is either closed or partially opened for the low or high frequencies, respectively. The pressurized air for the active control is fed by a turbo-blower set aboard and operates accelerating the motion of the water mass in the U-duct. The theoretical analysis is conducted in the…

Control valvesU-tank stabilizer Active operation Stability control OptimizationEngineeringEnvironmental Engineeringbusiness.industryCompressed airAirflowOcean EngineeringNatural frequencySettore ING-IND/13 - Meccanica Applicata Alle MacchinePower (physics)Settore ING-IND/08 - Macchine A FluidoElectronic stability controlControl theoryHeat transferPneumatic flow controlbusiness
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Multiple solutions with sign information for semilinear Neumann problems with convection

2019

We consider a semilinear Neumann problem with convection. We assume that the drift coefficient is indefinite. Using the theory of nonlinear operators of monotone type, together with truncation and comparison techniques and flow invariance arguments, we prove a multiplicity theorem producing three nontrivial smooth solutions (positive, negative and nodal).

ConvectionTruncationGeneral Mathematics010102 general mathematicsMathematical analysisMultiplicity (mathematics)Type (model theory)Convection01 natural sciencesIndefinite drift coefficientExtremal constant sign solution010101 applied mathematicsMonotone polygonFlow (mathematics)Settore MAT/05 - Analisi MatematicaConstant sign and nodal solutionNeumann boundary conditionFlow invariance0101 mathematicsSign (mathematics)MathematicsRevista Matemática Complutense
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Effective hamiltonian approach to the non-Markovian dynamics in a spin-bath

2010

We investigate the dynamics of a central spin that is coupled to a bath of spins through a non-uniform distribution of coupling constants. Simple analytical arguments based on master equation techniques as well as numerical simulations of the full von Neumann equation of the total system show that the short-time damping and decoherence behaviour of the central spin can be modelled accurately through an effective Hamiltonian involving a single effective coupling constant. The reduced short-time dynamics of the central spin is thus reproduced by an analytically solvable effective Hamiltonian model.

Coupling constantPhysicsQuantum decoherenceSpinsHamiltonian modelMarkov processCondensed Matter PhysicsAtomic and Molecular Physics and Opticssymbols.namesakeClassical mechanicsQuantum mechanicsMaster equationsymbolsHamiltonian (quantum mechanics)opens systems effective hamiltonians quantum noise non-markovian dynamicsMathematical PhysicsVon Neumann architecture
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On Boundary Value Problems for ϕ-Laplacian on the Semi-Infinite Interval

2017

The Dirichlet problem and the problem with functional boundary condition for ϕ-Laplacian on the semi-infinite interval are studied as well as solutions between the lower and upper functions.

Dirichlet problem010102 general mathematicsMathematical analysislower and upper functionsMixed boundary conditionMathematics::Spectral Theory01 natural sciencesRobin boundary conditionElliptic boundary value problemϕ-Laplacian010101 applied mathematicssymbols.namesakeModeling and SimulationDirichlet boundary conditionboundary value problemFree boundary problemsymbolsNeumann boundary conditionQA1-939Boundary value problem0101 mathematicsAnalysisMathematicsMathematicsMathematical Modelling and Analysis
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Minimizing total variation flow

2000

We prove existence and uniqueness of weak solutions for the minimizing total variation flow with initial data in $L^1$. We prove that the length of the level sets of the solution, i.e., the boundaries of the level sets, decreases with time, as one would expect, and the solution converges to the spatial average of the initial datum as $t \to \infty$. We also prove that local maxima strictly decrease with time; in particular, flat zones immediately decrease their level. We display some numerical experiments illustrating these facts.

Dirichlet problem35K90Partial differential equationMeasurable functionApplied MathematicsMathematical analysis35B40Existence theorem35K65General Medicine35D0535K60Maxima and minimaUniqueness theorem for Poisson's equation35K55Neumann boundary conditionUniquenessAnalysisMathematics
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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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