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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....
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 is introduced. Its properties and applications to solving
a system of integral equations are considered.
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