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• W2856949655 abstract "Abstract In the present paper we propose and analyze a class of tensor approaches for the efficient numerical solution of a first order differential equation <m:math xmlns:m=http://www.w3.org/1998/Math/MathML> <m:mrow> <m:mrow> <m:mrow> <m:msup> <m:mi>ψ</m:mi> <m:mo>′</m:mo> </m:msup> <m:mo>⁢</m:mo> <m:mrow> <m:mo stretchy=false>(</m:mo> <m:mi>t</m:mi> <m:mo stretchy=false>)</m:mo> </m:mrow> </m:mrow> <m:mo>+</m:mo> <m:mrow> <m:mi>A</m:mi> <m:mo>⁢</m:mo> <m:mi>ψ</m:mi> </m:mrow> </m:mrow> <m:mo>=</m:mo> <m:mrow> <m:mi>f</m:mi> <m:mo>⁢</m:mo> <m:mrow> <m:mo stretchy=false>(</m:mo> <m:mi>t</m:mi> <m:mo stretchy=false>)</m:mo> </m:mrow> </m:mrow> </m:mrow> </m:math> {psi^{prime}(t)+Apsi=f(t)} with an unbounded operator coefficient A . These techniques are based on a Laguerre polynomial expansions with coefficients which are powers of the Cayley transform of the operator A . The Cayley transform under consideration is a useful tool to arrive at the following aims: (1) to separate time and spatial variables, (2) to switch from the continuous “time variable” to “the discrete time variable” and from the study of functions of an unbounded operator to the ones of a bounded operator, (3) to obtain exponentially accurate approximations. In the earlier papers of the authors some approximations on the basis of the Cayley transform and the N -term Laguerre expansions of the accuracy order <m:math xmlns:m=http://www.w3.org/1998/Math/MathML> <m:mrow> <m:mi mathvariant=script>𝒪</m:mi> <m:mo>⁢</m:mo> <m:mrow> <m:mo stretchy=false>(</m:mo> <m:msup> <m:mi>e</m:mi> <m:mrow> <m:mo>-</m:mo> <m:mi>N</m:mi> </m:mrow> </m:msup> <m:mo stretchy=false>)</m:mo> </m:mrow> </m:mrow> </m:math> {mathcal{O}(e^{-N})} were proposed and justified provided that the initial value is analytical for A . In the present paper we combine the Cayley transform and the Chebyshev–Gauss–Lobatto interpolation and arrive at an approximation of the accuracy order <m:math xmlns:m=http://www.w3.org/1998/Math/MathML> <m:mrow> <m:mi mathvariant=script>𝒪</m:mi> <m:mo>⁢</m:mo> <m:mrow> <m:mo stretchy=false>(</m:mo> <m:msup> <m:mi>e</m:mi> <m:mrow> <m:mo>-</m:mo> <m:mi>N</m:mi> </m:mrow> </m:msup> <m:mo stretchy=false>)</m:mo> </m:mrow> </m:mrow> </m:math> {mathcal{O}(e^{-N})} without restrictions on the input data. The use of the Laguerre expansion or the Chebyshev–Gauss–Lobatto interpolation allows to separate the time and space variables. The separation of the multidimensional spatial variable can be achieved by the use of low-rank approximation to the Cayley transform of the Laplace-like operator that is spectrally close to A . As a result a quasi-optimal numerical algorithm can be designed." @default.
• W2856949655 created "2018-07-19" @default.
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• W2856949655 date "2018-07-12" @default.
• W2856949655 modified "2023-09-23" @default.
• W2856949655 title "Quasi-Optimal Rank-Structured Approximation to Multidimensional Parabolic Problems by Cayley Transform and Chebyshev Interpolation" @default.
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• W2856949655 doi "https://doi.org/10.1515/cmam-2018-0021" @default.
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