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Multidisciplinary engineering systems : design and optimization techniques and their application /

Control and Dynamic Systems V57: Multidisciplinary Engineering Systems: Design and Optimization Techniques and Their Application.

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Otros Autores:	Leondes, Cornelius T.
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	San Diego : Academic Press, Inc., 1993.
Colección:	Control and dynamic systems ; v. 57.
Temas:	Engineering design. Conception technique. TECHNOLOGY & ENGINEERING > Engineering (General) Engineering design
Acceso en línea:	Texto completo

Tabla de Contenidos:

Front Cover; Multidisciplinary Engineering Systems: Design and Optimization Techniques and Their Application; Copyright Page; Table of Contents; CONTRIBUTORS; PREFACE; Chapter 1. Decomposition Methods for Multidisciplinary Synthesis; I. INTRODUCTION; II. Hierarchical Decomposition Architectures; III. OPTIMAL DESIGN PROBLEM STATEMENT; IV. DECOMPOSITION METHODS FOR MULTIDISCIPLINARY SYNTHESIS; V. CONCLUDING REMARKS; VI. REFERENCES; Chapter 2. Multilevel Optimization Techniques for Aircraft; I. INTRODUCTION; II. OVERALL STRATEGY; III. HYPERSONIC VEHICLE OPTIMIZATION EXAMPLE
IV. ADVANCED FIGHTER WING EXAMPLEV. SUMMARY; VI. REFERENCES; CHAPTER 3. INTEGRATED AERODYNAMIC
STRUCTURAL DESIGN OPTIMIZATION OF AIRCRAFT WINGS; I. INTRODUCTION; II. ANALYSIS; III. SENSITIVITY CALCULATION; IV. OPTIMIZATION PROCEDURE; V. DESIGN CASE 1: SUBSONIC TRANSPORT; VI. DESIGN CASE 2: HIGH SPEED CIVIL TRANSPORT; VII. CONCLUDING REMARKS; VIII. ACKNOWLEDGEMENTS; IX. NOMENCLATURE; X. REFERENCES; Chapter 4. Actuator and Sensor Placement for Control of Flexible Structures; I. INTRODUCTION; II. SURVEY OF PREVIOUS WORK; III. GRAMMIANS: GEOMETRICAL AND PHYSICAL ASPECTS
V. MODAL CONTROLLABILITY AND OBSERVABILITYVI. ACTUATOR/SENSOR PLACEMENT FOR FLEXIBLE STRUCTURES; VII. OPTIMAL ACTUATOR PLACEMENT: A DESIGN EXAMPLE; VIII. CONCLUDING REMARKS; IX. ACKNOWLEDGEMENTS; X. REFERENCES; Chapter 5. Structural Modification Techniques for Robust Actively Controlled Structures; I. INTRODUCTION; II. CONTROL DESIGN; III. ROBUSTNESS INDICES; IV. FORMULATION OF OPTIMIZATION PROBLEM; V. SOLUTION CONCEPT; VI. SOLUTION METHODS; VII. ROBUSTNESS ANALYSIS PROCEDURE; VIII. ROBUSTNESS DESIGN PROCEDURE; IX. ILLUSTRATIVE EXAMPLES; X. CONCLUDING REMARKS; XI. ACKNOWLEDGEMENT
XII. REFERENCESChapter 6. Active Control for Segmented Mirror Optical Systems; I. INTRODUCTION; II. TECHNICAL CHALLENGES OF LARGE SEGMENTED REFLECTORS; III. ANALYSIS OF THE W. M. KECK TEN METER TELESCOPE; IV. A LABORATORY TESTBED FOR THE DEVELOPMENT OF SEGMENTED OPTICS CONTROL SYSTEM TECHNOLOGY; V. MODELING AND CONTROL OF THE ASCIE LABORATORY TESTBED; VI. SUMMARY; VII. REFERENCES; Chapter 7. Robust Control Experiments for Two Highly Elastic Space Structures; I. INTRODUCTION; II. THE MAXIMUM ENTROPY/OPTIMAL PROJECTION APPROACH TO CONTROL DESIGN; III. THE MINI-MAST TEST EXPERIMENT
IV. THE ACES EXPERIMENTREFERENCES; Chapter 8. Applications of an Optimization-Based Integrated Controls- Structures Design Methodology For Flexible Space Structures; I. INTRODUCTION; II. MATHEMATICAL MODEL; III. CONTROLLER DESIGN METHODS; IV. OPTIMIZATION-BASED INTEGRATED CONTROLS-STRUCTURES DESIGN; V. INTEGRATED DESIGN OF THE EPS MODEL; VI. INTEGRATED DESIGN OF THE CSI EVOLUTIONARY MODEL; VII. CONCLUDING REMARKS; APPENDIX 1. DISSIPATIVE CONTROLLERS; REFERENCES; Chapter 9. Adaptive Linear System Identification and State Estimation; I. INTRODUCTION

Multidisciplinary engineering systems : design and optimization techniques and their application /

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