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The paper deals with co-derivative formulae for normal cone mappings to smooth
inequality systems. Both the regular (Linear Independence Constraint Qualification satisfied)
and nonregular (Mangasarian-Fromovitz Constraint Qualification satisfied) cases are considered.
A major part of the results relies on general transformation formulae previously obtained by
Mordukhovich and Outrata. This allows one to derive exact formulae for general smooth, regular and polyhedral, possibly
nonregular systems. In the nonregular, nonpolyhedral case a generalized transformation formula by
Mordukhovich and Outrata applies, however, a major difficulty consists in
checking a calmness condition of a certain multivalued mapping. The paper provides a translation
of this condition in terms of much easier to verify constraint qualifications. The final section is
devoted to the situation where the calmness condition is violated. A series of examples
illustrates the use and comparison of the presented formulae.
In this paper, we consider the characterization of strong stationary solutions to
equilibrium problems with equilibrium constraints (EPECs). Assuming that the underlying
generalized equation satisfies strong regularity in the sense of Robinson, an explicit
multiplier-based stationarity condition can be derived. This is applied then
to an equilibrium model arising from ISO-regulated electricity spot markets.
This paper deals with the computation of regular coderivatives of
solution maps associated with a frequently arising class of generalized equations.
The constraint sets are given by (not necessarily convex) inequalities,
and we do not assume linear independence of gradients to active constraints.
The achieved results enable us to state several versions of sharp necessary optimality
conditions in optimization problems with equilibria governed by such
generalized equations. The advantages are illustrated by means of examples.