Author : Donald R. Smith
Publisher : Courier Corporation
Page : 406 pages
File Size : 40,91 MB
Release : 1998-01-01
Category : Mathematics
ISBN : 9780486404554
Highly readable text elucidates applications of the chain rule of differentiation, integration by parts, parametric curves, line integrals, double integrals, and elementary differential equations. 1974 edition.
Author : Andrej Cherkaev
Publisher : Springer Science & Business Media
Page : 561 pages
File Size : 30,55 MB
Release : 2012-12-06
Category : Science
ISBN : 1461211883
This book bridges a gap between a rigorous mathematical approach to variational problems and the practical use of algorithms of structural optimization in engineering applications. The foundations of structural optimization are presented in sufficiently simple form as to make them available for practical use.
Author : Dorin Bucur
Publisher : Springer Science & Business Media
Page : 218 pages
File Size : 47,53 MB
Release : 2006-09-13
Category : Mathematics
ISBN : 0817644032
Shape optimization problems are treated from the classical and modern perspectives Targets a broad audience of graduate students in pure and applied mathematics, as well as engineers requiring a solid mathematical basis for the solution of practical problems Requires only a standard knowledge in the calculus of variations, differential equations, and functional analysis Driven by several good examples and illustrations Poses some open questions.
Author : Alexey F. Izmailov
Publisher : Springer
Page : 587 pages
File Size : 27,35 MB
Release : 2014-07-08
Category : Business & Economics
ISBN : 3319042475
This book presents comprehensive state-of-the-art theoretical analysis of the fundamental Newtonian and Newtonian-related approaches to solving optimization and variational problems. A central focus is the relationship between the basic Newton scheme for a given problem and algorithms that also enjoy fast local convergence. The authors develop general perturbed Newtonian frameworks that preserve fast convergence and consider specific algorithms as particular cases within those frameworks, i.e., as perturbations of the associated basic Newton iterations. This approach yields a set of tools for the unified treatment of various algorithms, including some not of the Newton type per se. Among the new subjects addressed is the class of degenerate problems. In particular, the phenomenon of attraction of Newton iterates to critical Lagrange multipliers and its consequences as well as stabilized Newton methods for variational problems and stabilized sequential quadratic programming for optimization. This volume will be useful to researchers and graduate students in the fields of optimization and variational analysis.
Author : Jonathan Borwein
Publisher : Springer Science & Business Media
Page : 368 pages
File Size : 16,46 MB
Release : 2006-06-18
Category : Mathematics
ISBN : 0387282718
Borwein is an authority in the area of mathematical optimization, and his book makes an important contribution to variational analysis Provides a good introduction to the topic
Author : Dimitrios C. Kravvaritis
Publisher : Walter de Gruyter GmbH & Co KG
Page : 584 pages
File Size : 34,6 MB
Release : 2020-04-06
Category : Mathematics
ISBN : 3110647451
This well-thought-out book covers the fundamentals of nonlinear analysis, with a particular focus on variational methods and their applications. Starting from preliminaries in functional analysis, it expands in several directions such as Banach spaces, fixed point theory, nonsmooth analysis, minimax theory, variational calculus and inequalities, critical point theory, monotone, maximal monotone and pseudomonotone operators, and evolution problems.
Author : R. Tyrrell Rockafellar
Publisher : Springer Science & Business Media
Page : 747 pages
File Size : 42,85 MB
Release : 2009-06-26
Category : Mathematics
ISBN : 3642024319
From its origins in the minimization of integral functionals, the notion of variations has evolved greatly in connection with applications in optimization, equilibrium, and control. This book develops a unified framework and provides a detailed exposition of variational geometry and subdifferential calculus in their current forms beyond classical and convex analysis. Also covered are set-convergence, set-valued mappings, epi-convergence, duality, and normal integrands.
Author : F. Giannessi
Publisher : Springer Science & Business Media
Page : 304 pages
File Size : 33,95 MB
Release : 2006-04-11
Category : Mathematics
ISBN : 0306480263
The aim of the book is to cover the three fundamental aspects of research in equilibrium problems: the statement problem and its formulation using mainly variational methods, its theoretical solution by means of classical and new variational tools, the calculus of solutions and applications in concrete cases. The book shows how many equilibrium problems follow a general law (the so-called user equilibrium condition). Such law allows us to express the problem in terms of variational inequalities. Variational inequalities provide a powerful methodology, by which existence and calculation of the solution can be obtained.
Author : Michael Ulbrich
Publisher : SIAM
Page : 315 pages
File Size : 37,84 MB
Release : 2011-07-28
Category : Mathematics
ISBN : 1611970687
A comprehensive treatment of semismooth Newton methods in function spaces: from their foundations to recent progress in the field. This book is appropriate for researchers and practitioners in PDE-constrained optimization, nonlinear optimization and numerical analysis, as well as engineers interested in the current theory and methods for solving variational inequalities.
Author : J.L. Troutman
Publisher : Springer Science & Business Media
Page : 373 pages
File Size : 46,27 MB
Release : 2012-12-06
Category : Mathematics
ISBN : 1468401580
The calculus of variations, whose origins can be traced to the works of Aristotle and Zenodoros, is now Ii vast repository supplying fundamental tools of exploration not only to the mathematician, but-as evidenced by current literature-also to those in most branches of science in which mathematics is applied. (Indeed, the macroscopic statements afforded by variational principles may provide the only valid mathematical formulation of many physical laws. ) As such, it retains the spirit of natural philosophy common to most mathematical investigations prior to this century. How ever, it is a discipline in which a single symbol (b) has at times been assigned almost mystical powers of operation and discernment, not readily subsumed into the formal structures of modern mathematics. And it is a field for which it is generally supposed that most questions motivating interest in the subject will probably not be answerable at the introductory level of their formulation. In earlier articles,1,2 it was shown through several examples that a complete characterization of the solution of optimization problems may be available by elementary methods, and it is the purpose of this work to explore further the convexity which underlay these individual successes in the context of a full introductory treatment of the theory of the variational calculus. The required convexity is that determined through Gateaux variations, which can be defined in any real linear space and which provide an unambiguous foundation for the theory.
