On the numerical approximation of <i>p</i>‐biharmonic and ∞‐biharmonic functions

Katzourakis, Nikos; Pryer, Tristan

doi:10.1002/num.22295

Cited by 23 publications

(23 citation statements)

References 35 publications

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“…In particular, some of the explicit solutions of the corresponding reduced ODEs are related to the results of numerical experimentation in Ref. 16. The complete classification is left as a future work.…”

Section: Symmetry Reductions and Invariant Solutionsmentioning

confidence: 99%

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A Lie symmetry analysis and explicit solutions of the two‐dimensional ∞‐Polylaplacian

Papamikos

Pryer

2018

Stud Appl Math

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In this work, we consider the Lie point symmetry analysis of a strongly nonlinear partial differential equation of third order, the ∞‐Polylaplacian, in two spatial dimensions. This equation is a higher order generalization of the ∞‐Laplacian, also known as Aronsson's equation, and arises as the analog of the Euler–Lagrange equations of a second‐order variational principle in L∞. We obtain its full symmetry group, one‐dimensional Lie subalgebras and the corresponding symmetry reductions to ordinary differential equations. Finally, we use the Lie symmetries to construct new invariant ∞‐Polyharmonic functions.

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Section: Symmetry Reductions and Invariant Solutionsmentioning

confidence: 99%

“…In Ref. 16, equations of this type and the structure of their solutions were studied using appropriate numerical schemes. One of the goals of this paper is to construct new closed form solutions complementing these results.…”

Section: Introductionmentioning

confidence: 99%

A Lie symmetry analysis and explicit solutions of the two‐dimensional ∞‐Polylaplacian

Papamikos

Pryer

2018

Stud Appl Math

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“…Diffuse derivatives can be seen as measure-theoretic disintegrations whose barycentres are the distributional derivatives (see [29]). For further results relevant to D-solutions and their applications, see [30]- [32], [34,10,35,13], [36]- [38].…”

Section: Nikos Katzourakismentioning

confidence: 99%

Weak vs. 𝒟-solutions to linear hyperbolic first-order systems with constant coefficients

Katzourakis

2018

J. Hyper. Differential Equations

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We establish a consistency result by comparing two independent notions of generalised solutions to a large class of linear hyperbolic first order PDE systems with constant coefficients, showing that they eventually coincide. The first is the usual notion of weak solutions defined via duality. The second is the new notion of D-solutions introduced in the recent paper [29], which arose in connection to vectorial Calculus of Variations in L ∞ and fully nonlinear elliptic systems. This new approach is a duality-free alternative to distributions and is based on the probabilistic representation of limits of difference quotients.

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“…Herein we follow an approach based on recent advances in Calculus of Variations in the space L ∞ (see [22,23,24,25]) developed recently for functionals involving higher order derivatives. The field has been initiated in the 1960s by Gunnar Aronsson (see e.g.…”

Section: Introductionmentioning

confidence: 99%

An $L^\infty$ Regularization Strategy to the Inverse Source Identification Problem for Elliptic Equations

Katzourakis¹

2019

SIAM J. Math. Anal.

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In this paper we utilise new methods of Calculus of Variations in L ∞ to provide a regularisation strategy to the ill-posed inverse problem of identifying the source of a non-homogeneous linear elliptic equation, satisfying Dirichlet data on a domain. One of the advantages over the classical Tykhonov regularisation in L 2 is that the approximated solution of the PDE is uniformly close to the noisy measurements taken on a compact subset of the domain.

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On the numerical approximation of p‐biharmonic and ∞‐biharmonic functions

Cited by 23 publications

References 35 publications

A Lie symmetry analysis and explicit solutions of the two‐dimensional ∞‐Polylaplacian

A Lie symmetry analysis and explicit solutions of the two‐dimensional ∞‐Polylaplacian

Weak vs. 𝒟-solutions to linear hyperbolic first-order systems with constant coefficients

An $L^\infty$ Regularization Strategy to the Inverse Source Identification Problem for Elliptic Equations

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