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Functions of finite fractional variation and their applications to fractional impulsive equations

Dariusz Idczak (2017)

Czechoslovak Mathematical Journal

We introduce a notion of a function of finite fractional variation and characterize such functions together with their weak $σ$ -additive fractional derivatives. Next, we use these functions to study differential equations of fractional order, containing a $σ$ -additive term—we prove existence and uniqueness of a solution as well as derive a Cauchy formula for the solution. We apply these results to impulsive equations, i.e. equations containing the Dirac measures.

Functions of generalized variation

S. Perlman (1980)

Fundamenta Mathematicae

Functions satisfying an integral Lipschitz condition

Jaroslav Král (1971)

Acta Universitatis Carolinae. Mathematica et Physica

Funktionen von beschränkter Variation auf metrischen Räumen.

J. Kallies (1974)

Journal für die reine und angewandte Mathematik

Displaying 1 – 4 of 4

Functions of finite fractional variation and their applications to fractional impulsive equations

Functions of generalized variation

Functions satisfying an integral Lipschitz condition

Funktionen von beschränkter Variation auf metrischen Räumen.

Currently displaying 1 – 4 of 4