Generalized Convexity, Generalized Monotonicity: Recent Results by Jean-Pierre Crouzeix

Generalized Convexity, Generalized Monotonicity: Recent Results by Jean-Pierre Crouzeix

A function is convex if its epigraph is convex. This geometrical structure has very strong implications in terms of continuity and differentiability. Separation theorems lead to optimality conditions and duality for convex problems. A function is quasiconvex if its lower level sets are convex. Here again, the geo- metrical structure of the level sets implies some continuity and differentiability properties for quasiconvex functions. Optimality conditions and duality can be derived for optimization problems involving such functions as well. Over a period of about fifty years, quasiconvex and other generalized convex functions have been considered in a variety of fields including economies, man- agement science, engineering, probability and applied sciences in accordance with the need of particular applications. During the last twenty-five years, an increase of research activities in this field has been witnessed. More recently generalized monotonicity of maps has been studied. It relates to generalized convexity off unctions as monotonicity relates to convexity. Generalized monotonicity plays a role in variational inequality problems, complementarity problems and more generally, in equilibrium prob- lems.

SKU	Unavailable
ISBN 13	9780792350880
ISBN 10	079235088X
Title	Generalized Convexity, Generalized Monotonicity: Recent Results
Author	Jean-Pierre Crouzeix
Series	Nonconvex Optimization And Its Applications
Condition	Unavailable
Binding Type	Hardback
Publisher	Kluwer Academic Publishers
Year published	1998-08-31
Number of pages	471
Cover note	Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
Note	Unavailable