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Optimality Conditions in Convex Optimization: A Finite-Dimensional View
Publisher:
Chapman & Hall/CRC
Publication Date:
2011
Number of Pages:
426
Format:
Hardcover
Price:
89.95
ISBN:
9781439868225
Category:
Textbook
We do not plan to review this book.
What Is Convex Optimization?
Introduction
Basic concepts
Smooth Convex Optimization
Tools for Convex Optimization
Introduction
Convex Sets
Convex Functions
Subdifferential Calculus
Conjugate Functions
ε-Subdifferential
Epigraphical Properties of Conjugate Functions
Basic Optimality Conditions using the Normal Cone
Introduction
Slater Constraint Qualification
Abadie Constraint Qualification
Convex Problems with Abstract Constraints
Max-Function Approach
Cone-Constrained Convex Programming
Saddle Points, Optimality, and Duality
Introduction
Basic Saddle Point Theorem
Affine Inequalities and Equalities and Saddle Point Condition
Lagrangian Duality
Fenchel Duality
Equivalence between Lagrangian and Fenchel Duality: Magnanti’s Approach
Enhanced Fritz John Optimality Conditions
Introduction
Enhanced Fritz John Conditions Using the Subdifferential
Enhanced Fritz John Conditions under Restrictions
Enhanced Fritz John Conditions in the Absence of Optimal Solution
Enhanced Dual Fritz John Optimality Conditions
Optimality without Constraint Qualification
Introduction
Geometric Optimality Condition: Smooth Case
Geometric Optimality Condition: Nonsmooth Case
Separable Sublinear Case
Sequential Optimality Conditions and Generalized Constraint Qualification
Introduction
Sequential Optimality: Thibault’s Approach
Fenchel Conjugates and Constraint Qualification
Applications to Bilevel Programming Problems
Representation of the Feasible Set and KKT Conditions
Introduction
Smooth Case
Nonsmooth Case
Weak Sharp Minima in Convex Optimization
Introduction
Weak Sharp Minima and Optimality
Approximate Optimality Conditions
Introduction
ε-Subdifferential Approach
Max-Function Approach
ε-Saddle Point Approach
Exact Penalization Approach
Ekeland’s Variational Principle Approach
Modified ε-KKT Conditions
Duality-Based Approach to ε-Optimality
Convex Semi-Infinite Optimization
Introduction
Sup-Function Approach
Reduction Approach
Lagrangian Regular Point
Farkas–Minkowski Linearization
Noncompact Scenario: An Alternate Approach
Convexity in Nonconvex Optimization
Introduction
Maximization of a Convex Function
Minimization of d.c. Functions
Bibliography
Index
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