Role of Biotechnology in Alkaloids Production

We provide a rule to calculate the subdifferential set of the pointwise supremum of an arbitrary family of convex functions defined on a real locally convex topological vector space. Our formula is given exclusively in terms of the data functions and does not require any assumption either on the index set on which the supremum is taken or on the involved functions. Some other calculus rules, namely chain rule formulas of standard type, are obtained from our main result via new and direct proofs.

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Calmness of the Argmin Mapping in Linear Semi-Infinite Optimization

Cánovas

Hantoute

Parra

et al. 2013

J Optim Theory Appl

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Weaker conditions for subdifferential calculus of convex functions

Corrêa

Hantoute

López

2016

Journal of Functional Analysis

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In this paper we establish new rules for the calculus of the subdifferential mapping of the sum of two convex functions. Our results are established under conditions which are at an intermediate level of generality among those leading to the Hiriart-Urruty and Phelps formula (Hiriart-Urruty and Phelps, 1993 [15]), involving the approximate subdifferential, and the stronger assumption used in the well-known Moreau-Rockafellar formula (Rockafellar 1970, [23]; Moreau 1966, [20]), which only uses the exact subdifferential. We give an application to derive asymptotic optimality conditions for convex optimization.CONICYT 1151003 1150909 Math-Amsud program 13MATH-01 2013 MINECO of Spain FEDER of EU MTM2014-59179-C2-1-P MTM2011-29064-C03-02 Australian Research Council DP16010085

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Towards Supremum-Sum Subdifferential Calculus Free of Qualification Conditions

Corrêa¹,

Hantoute²,

López³

2016

SIAM J. Optim.

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Abstract. We give a formula for the subdifferential of the sum of two convex functions where one of them is the supremum of an arbitrary family of convex functions. This is carried out under a weak assumption expressing a natural relationship between the lower semicontinuous envelopes of the data functions in the domain of the sum function. We also provide a new rule for the subdifferential of the sum of two convex functions, which uses a strategy of augmenting the involved functions. The main feature of our analysis is that no continuity-type condition is required. Our approach allows us to unify, recover, and extend different results in the recent literature.Key words. sum and pointwise supremum of convex functions, Fenchel and approximate subdifferentials AMS subject classifications. 46N10, 52A41, 90C25

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Nonsmooth Lyapunov pairs for differential inclusions governed by operators with nonempty interior domain

2015

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The general theory of Lyapunov stability of first-order differential inclusions in Hilbert spaces has been studied by the authors in the previous paper (Adly et al. in Nonlinear Anal 75(3): 985-1008, 2012). This new contribution focuses on the case when the interior of the domain of the maximally monotone operator governing the given differential inclusion is nonempty; this includes in a natural way the finite-dimensional case. The current setting leads to simplified, more explicit criteria and permits some flexibility in the choice of the generalized subdifferentials. Some consequences of the viability of closed sets are given. Our analysis makes use of standard tools from convex and variational analysis.Australian Research Council DP-110102011 Project FONDECYT-CONICYT 1110019 Project ECOS-CONICYT C10E08 Math-Amsud 13MATH-01 2013 Ministerio de Economia y Competitividad MTM2011-29064-C03(03

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Abderrahim Hantoute

Subdifferential Calculus Rules in Convex Analysis: A Unifying Approach Via Pointwise Supremum Functions

Calmness of the Argmin Mapping in Linear Semi-Infinite Optimization

Weaker conditions for subdifferential calculus of convex functions

Towards Supremum-Sum Subdifferential Calculus Free of Qualification Conditions

Nonsmooth Lyapunov pairs for differential inclusions governed by operators with nonempty interior domain

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