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Abstract
In this paper, we investigate a class of second- and first-order differential inclusions, along with an algebraic inclusion, all subject to anti-periodic boundary conditions in a real Hilbert space. These problems, denoted as (Pɛμ)ap, (Pµ)ap, and (E00), involve operators that are odd, maximal monotone, and possibly set-valued. The second- and first-order differential inclusions are parameterized by two nonnegative constants, ɛ and µ, which affect the behavior of the differential terms.
We establish the existence and uniqueness of strong solutions for the problems (Pɛµ)ap and (Pµ)ap, as well as for the algebraic inclusion (E00). Additionally, we prove the continuous dependence of the solution to problem (Pɛµ)ap on parameters ɛ and µ. We also provide approximation results for the solutions to (Pµ)ap and (E00) as the parameters ɛ and µ approach zero. Finally, we discuss some applications of our theoretical results.
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Details
1 Faculty of Mathematics and Informatics, Ovidius University of Constanta, 124 Mamaia Blvd, 900527 Constanta, Romania