Finite volume element method for two-dimensional fractional subdiffusion problems

Samir Karaa; Kassem Mustapha; Amiya K. Pani

doi:10.1093/imanum/drw010

Finite volume element method for two-dimensional fractional subdiffusion problems

Samir Karaa^*, Kassem Mustapha, Amiya K. Pani

^*المؤلف المقابل لهذا العمل

Mathematics & Statistics

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

38 اقتباسات (Scopus)

ملخص

In this article, a semidiscrete spatial finite volume (FV) method is proposed and analyzed for approximating solutions of anomalous subdiffusion equations involving a temporal fractional derivative of order α ? (0, 1) in a two-dimensional convex domain. An optimal error estimate in the L∞ (L²)-norm is shown to hold. A superconvergence result is proved, and as a consequence, it is proved that a quasi-optimal order of convergence in the L∞ (L∞ )-norm holds. We also consider a fully discrete scheme that employs a FV method in space and a piecewise linear discontinuous Galerkin method to discretize in time. It is further shown that the convergence rate is of order h² + k^1+α, where h denotes the spatial discretization parameter and k represents the temporal discretization parameter. Numerical experiments indicate optimal convergence rates in both time and space, and also illustrate that the imposed regularity assumptions are pessimistic.

اللغة الأصلية	English
الصفحات (من إلى)	945-964
عدد الصفحات	20
دورية	IMA Journal of Numerical Analysis
مستوى الصوت	37
رقم الإصدار	2
المعرِّفات الرقمية للأشياء	https://doi.org/10.1093/imanum/drw010
حالة النشر	Published - أبريل 1 2017

ASJC Scopus subject areas

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الوصول إلى المستند

10.1093/imanum/drw010

الملفات والروابط الأخرى

قم بذكر هذا

@article{80023c1942de407894e46578605db8b3,

title = "Finite volume element method for two-dimensional fractional subdiffusion problems",

abstract = "In this article, a semidiscrete spatial finite volume (FV) method is proposed and analyzed for approximating solutions of anomalous subdiffusion equations involving a temporal fractional derivative of order α ? (0, 1) in a two-dimensional convex domain. An optimal error estimate in the L∞ (L2)-norm is shown to hold. A superconvergence result is proved, and as a consequence, it is proved that a quasi-optimal order of convergence in the L∞ (L∞ )-norm holds. We also consider a fully discrete scheme that employs a FV method in space and a piecewise linear discontinuous Galerkin method to discretize in time. It is further shown that the convergence rate is of order h2 + k1+α, where h denotes the spatial discretization parameter and k represents the temporal discretization parameter. Numerical experiments indicate optimal convergence rates in both time and space, and also illustrate that the imposed regularity assumptions are pessimistic.",

keywords = "discontinuous Galerkin method, error analysis., finite volume element, fractional diffusion",

author = "Samir Karaa and Kassem Mustapha and Pani, {Amiya K.}",

year = "2017",

month = apr,

day = "1",

doi = "10.1093/imanum/drw010",

language = "English",

volume = "37",

pages = "945--964",

journal = "IMA Journal of Numerical Analysis",

issn = "0272-4979",

publisher = "Oxford University Press",

number = "2",

}

TY - JOUR

T1 - Finite volume element method for two-dimensional fractional subdiffusion problems

AU - Karaa, Samir

AU - Mustapha, Kassem

AU - Pani, Amiya K.

PY - 2017/4/1

Y1 - 2017/4/1

N2 - In this article, a semidiscrete spatial finite volume (FV) method is proposed and analyzed for approximating solutions of anomalous subdiffusion equations involving a temporal fractional derivative of order α ? (0, 1) in a two-dimensional convex domain. An optimal error estimate in the L∞ (L2)-norm is shown to hold. A superconvergence result is proved, and as a consequence, it is proved that a quasi-optimal order of convergence in the L∞ (L∞ )-norm holds. We also consider a fully discrete scheme that employs a FV method in space and a piecewise linear discontinuous Galerkin method to discretize in time. It is further shown that the convergence rate is of order h2 + k1+α, where h denotes the spatial discretization parameter and k represents the temporal discretization parameter. Numerical experiments indicate optimal convergence rates in both time and space, and also illustrate that the imposed regularity assumptions are pessimistic.

AB - In this article, a semidiscrete spatial finite volume (FV) method is proposed and analyzed for approximating solutions of anomalous subdiffusion equations involving a temporal fractional derivative of order α ? (0, 1) in a two-dimensional convex domain. An optimal error estimate in the L∞ (L2)-norm is shown to hold. A superconvergence result is proved, and as a consequence, it is proved that a quasi-optimal order of convergence in the L∞ (L∞ )-norm holds. We also consider a fully discrete scheme that employs a FV method in space and a piecewise linear discontinuous Galerkin method to discretize in time. It is further shown that the convergence rate is of order h2 + k1+α, where h denotes the spatial discretization parameter and k represents the temporal discretization parameter. Numerical experiments indicate optimal convergence rates in both time and space, and also illustrate that the imposed regularity assumptions are pessimistic.

KW - discontinuous Galerkin method

KW - error analysis.

KW - finite volume element

KW - fractional diffusion

UR - http://www.scopus.com/inward/record.url?scp=85019158859&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85019158859&partnerID=8YFLogxK

U2 - 10.1093/imanum/drw010

DO - 10.1093/imanum/drw010

M3 - Article

AN - SCOPUS:85019158859

SN - 0272-4979

VL - 37

SP - 945

EP - 964

JO - IMA Journal of Numerical Analysis

JF - IMA Journal of Numerical Analysis

IS - 2

ER -

Finite volume element method for two-dimensional fractional subdiffusion problems

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ASJC Scopus subject areas

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