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Inverse Problem for Fractional Diffusion Equation

Tuan, Vu Kim — 2011

Fractional Calculus and Applied Analysis

MSC 2010: 26A33, 33E12, 34K29, 34L15, 35K57, 35R30 We prove that by taking suitable initial distributions only finitely many measurements on the boundary are required to recover uniquely the diffusion coefficient of a one dimensional fractional diffusion equation. If a lower bound on the diffusion coefficient is known a priori then even only two measurements are sufficient. The technique is based on possibility of extracting the full boundary spectral data from special lateral measurements....

$H$ -function with complex parameters. I: Existence.

Al-Musallam, Fadhel A.; Tuan, Vu Kim — 2001

International Journal of Mathematics and Mathematical Sciences

Reverse convolution inequalities and applications to inverse heat source problems.

Saitoh, Saburou; Tuan, Vu Kim; Yamamoto, Masahiro — 2002

JIPAM. Journal of Inequalities in Pure & Applied Mathematics [electronic only]

Convolution inequalities and applications.

Saitoh, Saburou; Tuan, Vu Kim; Yamamoto, Masahiro — 2003

JIPAM. Journal of Inequalities in Pure & Applied Mathematics [electronic only]

$H$ -function with complex parameters. II: Evaluation.

Al-Musallam, Fadhel A.; Tuan, Vu Kim — 2001

International Journal of Mathematics and Mathematical Sciences

Reverse weighted $L_{p}$ - norm inequalities in convolutions.

Saitoh, Saburou; Tuan, Vũ Kim; Yamamoto, Masahiro — 2000

JIPAM. Journal of Inequalities in Pure & Applied Mathematics [electronic only]

New Type Paley-Wiener Theorems for the Modified Multidimensional Mellin Transform.

Vu Kim Tuan — 1998

The journal of Fourier analysis and applications [[Elektronische Ressource]]

Spectrum of Signals.

Vu Kim Tuan — 2001

The journal of Fourier analysis and applications [[Elektronische Ressource]]

Convolution of Hankel transform and its application to an integral involving Bessel functions of first kind.

Vu Kim Tuan; Saigo, Megumi — 1995

International Journal of Mathematics and Mathematical Sciences

Integral representations of generalized Lauricella hypergeometric functions.

Vu Kim Tuan; Buschman, Robert G. — 1992

International Journal of Mathematics and Mathematical Sciences

Integral transforms of Fourier cosine and sine generalized convolution type.

Nguyen Xuan Thao; Vu Kim Tuan; Nguyen Thanh Hong — 2007

International Journal of Mathematics and Mathematical Sciences

Generalized Convolution Transforms and Toeplitz Plus Hankel Integral Equations

Xuan Thao, Nguyen; Kim Tuan, Vu; Thanh Hong, Nguyen — 2008

Fractional Calculus and Applied Analysis

Mathematics Subject Classification: 44A05, 44A35 With the help of a generalized convolution and prove Watson’s and Plancherel’s theorems. Using generalized convolutions a class of Toeplitz plus Hankel integral equations, and also a system of integro-differential equations are solved in closed form.

A Generalized Convolution with a Weight Function for the Fourier Cosine and Sine Transforms

Xuan Thao, Nguyen; Kim Tuan, Vu; Minh Khoa, Nguyen — 2004

Fractional Calculus and Applied Analysis

A generalized convolution with a weight function for the Fourier cosine and sine transforms is introduced. Its properties and applications to solving a system of integral equations are considered.

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Currently displaying 1 – 13 of 13

Inverse Problem for Fractional Diffusion Equation

$H$ -function with complex parameters. I: Existence.

Reverse convolution inequalities and applications to inverse heat source problems.

Convolution inequalities and applications.

$H$ -function with complex parameters. II: Evaluation.

Reverse weighted $L_{p}$ - norm inequalities in convolutions.

New Type Paley-Wiener Theorems for the Modified Multidimensional Mellin Transform.

Spectrum of Signals.

Convolution of Hankel transform and its application to an integral involving Bessel functions of first kind.

Integral representations of generalized Lauricella hypergeometric functions.

Integral transforms of Fourier cosine and sine generalized convolution type.

Generalized Convolution Transforms and Toeplitz Plus Hankel Integral Equations

A Generalized Convolution with a Weight Function for the Fourier Cosine and Sine Transforms