In this paper by introducing a key assumption, we prove that the key assumption is equivalent to the Robinson metric regularity of the implicit multifunction and that under some suitable conditions the key assumption is sufficient for the Lipschitz-likeness (metric regularity) of the implicit multifunction. Finally, we establish the specific expressions of the contingent derivative and the second-order contingent derivative for the implicit multifunction.
WANG Li-na
,
FANG Zhi-miao
,
LI Ming-hua
. Lipschitz-likeness and contingent derivative of an implicit multifunction[J]. Journal of East China Normal University(Natural Science), 2018
, 2018(1)
: 17
-23
.
DOI: 10.3969/j.issn.1000-5641.2018.01.003
[1] ZHAO J. The lower semicontinuity of optimal solution sets[J]. J Math Anal Appl, 1997, 207:240-254.
[2] KIEN B T. On the lower semicontinuity of optimal solution sets[J]. Optimization, 2005, 54:123-130.
[3] LI S J, CHEN C R. Stability of weak vector variational inequality[J]. Nonlinear Analysis Theory Methods & Applications, 2009, 70:1528-1535.
[4] CHEN C R, LI S J, FANG Z M. On the solution semicontinuity to a parametric generalized vector quasivariational inequality[J]. Comput Math Appl, 2010, 60:2417-2425.
[5] ZHONG R Y, HUANG N J. Lower semicontinuity for parametric weak vector variational inequalities in reflexive Banach spaces[J]. J Optimiz Theory App, 2011, 150:317-326.
[6] ROCKAFELLAR P T, WETS R J B. Variational Analysis[M]. Berlin:Springer, 1998.
[7] ROBINSON S M. Generalized equations and their solutions, part I:Basic theory[J]. Math Program Study, 1979, 10:128-141.
[8] BONNANS J F, SHAPIRO A. Perturbation Analysis of Optimization Problems[M]. New York:Springer, 2000.
[9] AUBIN J P, EKELAND I. Applied Nonlinear Analysis[M]. New York:John Wiley and Sons, 1984.
[10] AUBIN J P, FRANKOWSKA H. Set-Valued Analysis[M]. Boston:Birkhauser, 1990.
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