Optimal Control of Solutions to the Multipoint Initial-Final Problem for Nonstationary Relatively Bounded Equations of Sobolev Type

Authors

  • M. A. Sagadeeva Author
  • A. D. Badoyan Author

Abstract

We study the problem of optimal control of solutions to an operator-differential equation, which is not solved with respect to the time derivative, together with a multipoint initial-final condition. In this case, one of the operators in the equation is multiplied by a scalar function of time. By the properties of the operators involved, the stationary equation has analytical resolving group. We construct a solution to the multipoint initial-final problem for the nonstationary equation. We show that a unique optimal control of solutions to this problem exists. 
Apart from the introduction and bibliography, the article consists of three sections. The first section provides the essentials of the theory of relatively p-bounded operators. In the second section we construct a strong solution to the multipoint initial-final problem for nonstationary Sobolev-type equations. The third section contains our proof that there exists a unique optimal control of solutions to the multipoint initial-final problem

Author Biographies

  • M. A. Sagadeeva
    candidate of physico-mathematical Sciences, associate Professor, Department of mathematical physics
  • A. D. Badoyan
    graduate student,Department of mathematical physics

Issue

Vol. 7 No. 3 (2014)

Section

Short Notes