Optimality Conditions in Convex Optimization
A Finite-Dimensional View
Joydeep Dutta author Anulekha Dhara author
Format:Paperback
Publisher:Taylor & Francis Ltd
Published:31st May '17
Currently unavailable, and unfortunately no date known when it will be back
This paperback is available in another edition too:
- Hardback£195.00(9781439868225)
Optimality Conditions in Convex Optimization explores an important and central issue in the field of convex optimization: optimality conditions. It brings together the most important and recent results in this area that have been scattered in the literature—notably in the area of convex analysis—essential in developing many of the important results in this book, and not usually found in conventional texts. Unlike other books on convex optimization, which usually discuss algorithms along with some basic theory, the sole focus of this book is on fundamental and advanced convex optimization theory.
Although many results presented in the book can also be proved in infinite dimensions, the authors focus on finite dimensions to allow for much deeper results and a better understanding of the structures involved in a convex optimization problem. They address semi-infinite optimization problems; approximate solution concepts of convex optimization problems; and some classes of non-convex problems which can be studied using the tools of convex analysis. They include examples wherever needed, provide details of major results, and discuss proofs of the main results.
"It discusses a number of major approaches to the subject, bringing together many results from the past thirty-five years into one handy volume. … Researchers in variational analysis should find this book to be a useful reference; for those new to convex optimization, it provides a very accessible entry point to the field. I have begun recommending it to graduate students who would like to learn about convex subdifferential calculus. … a valuable book, a most welcome addition to the optimization theory literature."
—Doug Ward, Mathematical Reviews, January 2013
ISBN: 9781138115248
Dimensions: unknown
Weight: 453g
444 pages