A virtual element method for the vibration problem of Kirchhoff plates

Mora, David; Rivera, Gonzalo; Velásquez, Iván

doi:10.1051/m2an/2017041

Cited by 59 publications

(45 citation statements)

References 47 publications

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“…The proof follows the line e.g. of that of [50,Theorem 4.3]. Let w n be a discrete eigenfunction associated with the discrete eigenvalue λ n , and let w and λ be the corresponding exact eigenfunction and eigenvalue, respectively.…”

Section: P-spectral Approximation For Compact Operatorsmentioning

confidence: 90%

The p- and hp-versions of the virtual element method for elliptic eigenvalue problems

Čertı́k

Gardini

Manzini

et al. 2020

Computers & Mathematics with Applications

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We discuss the p-and the hp-versions of the virtual element method for the approximation of eigenpairs of elliptic operators with a potential term on polygonal meshes. An application of this model is provided by the Schrödinger equation with a pseudo-potential term. We present in details the analysis of the p-version of the method, proving exponential convergence in the case of analytic eigenfunctions. The theoretical results are supplied with a wide set of experiments. We also show numerically that, in the case of eigenfunctions with finite Sobolev regularity, an exponential approximation of the eigenvalues in terms of the cubic root of the number of degrees of freedom can be obtained by employing hp-refinements. Importantly, the geometric flexibility of polygonal meshes is exploited in the construction of the hp-spaces.

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Section: P-spectral Approximation For Compact Operatorsmentioning

confidence: 90%

The p- and hp-versions of the virtual element method for elliptic eigenvalue problems

Čertı́k

Gardini

Manzini

et al. 2020

Computers & Mathematics with Applications

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“…with α * and α * positive constants independent of the element E. For instance, a standard choice (26) and properties (39) imply that the discrete form a E h (·, ·) satisfies the consistency and stability properties. The global approximated bilinear form a h (·, ·) : V h × V h → R is defined by simply summing the local contributions:…”

Section: Discrete Bilinear Forms and Load Term Approximationmentioning

confidence: 99%

The Stokes Complex for Virtual Elements with Application to Navier–Stokes Flows

2019

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In the present paper, we investigate the underlying Stokes complex structure of the Virtual Element Method for Stokes and Navier-Stokes introduced in previous papers by the same authors, restricting our attention to the two dimensional case. We introduce a Virtual Element space Φ h ⊂ H 2 (Ω) and prove that the triad {Φ h , V h , Q h } (with V h and Q h denoting the discrete velocity and pressure spaces) is an exact Stokes complex. Furthermore, we show the computability of the associated differential operators in terms of the adopted degrees of freedom and explore also a different discretization of the convective trilinear form. The theoretical findings are supported by numerical tests. *

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“…Although the main motivation of VEM is the use of general polytopal partitions, its flexibility can lead also to different advantages. One, initiated in [28,18] and further investigated in [3,11,46,47], is the possibility to develop C 1 conforming spaces, still keeping the accuracy order and the number of degrees of freedom at a reasonable level. More specifically, the lowest degree requires only three degrees of freedom for each vertex independently for the shape of the elements.…”

Section: Introductionmentioning

confidence: 99%

A C1 Virtual Element Method on polyhedral meshes

Veiga

Dassi

Russo

2020

Computers & Mathematics with Applications

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The purpose of the present paper is to develop C 1 Virtual Elements in three dimensions for linear elliptic fourth order problems, motivated by the difficulties that standard conforming Finite Elements encounter in this framework. We focus the presentation on the lowest order case, the generalization to higher orders being briefly provided in the Appendix. The degrees of freedom of the proposed scheme are only 4 per mesh vertex, representing function values and gradient values. Interpolation error estimates for the proposed space are provided, together with a set of numerical tests to validate the method at the practical level.

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A virtual element method for the vibration problem of Kirchhoff plates

Cited by 59 publications

References 47 publications

The p- and hp-versions of the virtual element method for elliptic eigenvalue problems

The p- and hp-versions of the virtual element method for elliptic eigenvalue problems

The Stokes Complex for Virtual Elements with Application to Navier–Stokes Flows

A C1 Virtual Element Method on polyhedral meshes

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