Physics of Fluids.
Vol. 30.
2018.
Full Stability of General Parametric Variational Systems
The paper introduces and studies the notions of Lipschitzian and Hölderian full stability of solutions to three-parametric variational systems described in the generalized equation formalism involving nonsmooth base mappings and partial subgradients of prox-regular functions acting in Hilbert spaces. Employing advanced tools and techniques of second-order variational analysis allows us to establish complete characterizations of, as well as directly verifiable sufficient conditions for, such full stability properties under mild assumptions. Furthermore, we derive exact formulas and effective quantitative estimates for the corresponding moduli. The obtained results are specified for important classes of variational inequalities and variational conditions in both finite and infinite dimensions. © 2018, Springer Science+Business Media B.V., part of Springer Nature.
Authors
Mordukhovich B.S.
1,
2
,
Nghia T.T.A.3
,
Pham D.T.1
Journal
Number of issue
4
Language
English
Pages
911-946
Status
Published
Link
Volume
26
Year
2018
Organizations
- 1 Department of Mathematics, Wayne State University, Detroit, MI 48202, United States
- 2 RUDN University, Moscow, 117198, Russian Federation
- 3 Department of Mathematics and Statistics, Oakland University, Rochester, MI 48309, United States
Keywords
Coderivatives; Generalized differentiation; Legendre forms; Lipschitzian and Hölderian full stability; Parametric variational systems; Polyhedricity; Prox-regularity; Subgradients; Variational analysis; Variational inequalities and variational conditions
Date of creation
04.02.2019
Date of change
04.02.2019
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