Equivalent conditions to the nonnegativity of a quadratic functional in discrete optimal control

• Authors: HILSCHER Roman; ZEIDAN Vera
• Year of publication: 2004
• Type: Article in Periodical
• Magazine / Source: Mathematische Nachrichten
• MU Faculty or unit: Faculty of Science
• Field: General mathematics
• Keywords: Discrete quadratic functional; Nonnegativity; Positivity; Linear Hamiltonian difference system; Conjugate interval; Conjoined basis; Riccati difference equation; Discrete Jacobi condition
• Description: In this paper we provide a characterization of the nonnegativity of a discrete quadratic functional I with fixed right endpoint in the optimal control setting. This characterization is closely related to the kernel condition earlier introduced by M.Bohner as a part of a focal points definition for conjoined bases of the associated linear Hamiltonian difference system. When this kernel condition is satisfied only up to a certain critical index m, the traditional conditions, which are the focal points, conjugate intervals, implicit Riccati equation, and partial quadratic functionals, must be replaced by a new condition. This new condition is determined to be the nonnegativity of a block tridiagonal matrix, representing the remainder of I after the index m, on a suitable subspace.

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