附註:Includes bibliographical references.
Cover -- Table of Contents -- Foreword -- Organizing Institutions -- Contributing Authors -- Toward a Mathematical Theory of Aeroelasticity -- 1 The Wing Model -- 2 The Aerodynamic Model -- 3 Time-Domain Formulation of Control Problem -- Uniform Cusp Property, Boundary Integral, and Compactness for Shape Optimization -- 1 Preliminaries: Topologies on Families of Sets -- 2 Extension of the Uniform Cusp Property -- 3 Extended Uniform Cusp Property and Boundary Integral -- 4 Compactness under the Uniform Cusp Property and a Bound on the Perimeter -- Interior and Boundary Stabilization of Navier-Stokes Equations -- 1 Introduction -- 2 The Main Results -- 3 Introduction -- 4 Main Results (Case d = 3) -- Matrix Rounding with Application to Digital Halftoning -- 1 Introduction -- 2 Mathematical Programming Formulations -- 3 Geometric Families of Regions Defining Unimodular Hypergraphs -- 4 Algorithms for Computing the Optimal Rounding -- 5 Upper Bounds for the Lp-Discrepancy -- 6 Application to Digital Halftoning -- 7 Global Roundings -- 8 Concluding Remarks -- Nonlinear Programming: Algorithms, Software, and Applications -- 1 Sequential Quadratic Versus Sequential Convex Programming Methods -- 2 Very Large Scale Optimization by Sequential Convex Programming -- 3 Case Study: Horn Radiators for Satellite Communication -- 4 Case Study: Design of Surface Acoustic Wave Filters -- 5 Case Study: Optimal Control of an Acetylene Reactor -- 6 Case Study: Weight Reduction of a Cruise Ship -- Stochastic Modeling and Optimization of Complex Infrastructure Systems -- 1 Formulation of the Cost Optimization Problem -- 2 Bridge Networks -- 3 Estimation of Service Life of Infrastructures -- 4 Stochastic Modeling of Maintenance Strategies -- 5 Design of Long Bridges -- 6 Conclusions -- Feedback Robust Control for a Parabolic Variational Inequality -- 1 Introduction -- 2 Statement of the Problem -- 3 The Algorithm for Solving Problem 1 -- 4 The Algorithm for Solving Problem 2 -- Tracking
摘要:System Modeling and Optimization is an indispensable reference for anyone interested in the recent advances in these two disciplines. The book collects, for the first time, selected articles from the 21st and most recent IFIP TC 7 conference in Sophia Antipolis, France. Applied mathematicians and computer scientists can attest to the ever-growing influence of these two subjects. The practical applications of system modeling and optimization can be seen in a number of fields: environmental science, transport and telecommunications, image analysis, free boundary problems, bioscience, and non-cylindrical evolution control, to name just a few. New developments in each of these fields have contributed to a more complex understanding of both system modeling and optimization. Editors John Cagnol and Jean-Paul Zolésio, chairs of the conference, have assembled System Modeling and Optimization to present the most up-to-date developments to professionals and academics alike.
