Computational Methods for Control and Optimal Design of Aerospace Systems
Computational Methods for Control and Optimal Design of Aerospace Systems

Author:

Publisher:

Published: 1994

Total Pages: 16

ISBN-13:

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This final technical report contains a summary of the research funded by AFOSR under Grant F49620-92J-0078, titled Computational Methods for Control and Optimal Design of Aerospace Systems, for the period 1 January 1992 to 31 March 1994. During this period, the investigators concentrated on five problems; optimal design of forebody simulators, control of highly maneuverable aircraft, control of fluid flows, modeling and identification of smart materials, and robust control of nonlinear conservation laws. A new sensitivity equation method was developed for shape optimization and flow tailoring. This method was transitioned into software at the Arnold Engineering Development Center and at Virginia Tech. A new mathematical model for aircraft agility was used to investigate feedback control laws for time optimal maneuvers. New vortex shedding patterns were discovered for unsteady flows about rotating cylinders. The work on smart materials produced new models and computational methods for the dynamics of shape memory alloys. In addition, robust control theory was applied to nonlinear conservation laws yielding a new approach to sensor location. The report contains a complete list of papers produced during this period. (AN).

Computational Approaches for Aerospace Design
Computational Approaches for Aerospace Design

Author: Andy Keane

Publisher: John Wiley & Sons

Published: 2005-08-05

Total Pages: 602

ISBN-13: 0470855479

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Over the last fifty years, the ability to carry out analysis as a precursor to decision making in engineering design has increased dramatically. In particular, the advent of modern computing systems and the development of advanced numerical methods have made computational modelling a vital tool for producing optimized designs. This text explores how computer-aided analysis has revolutionized aerospace engineering, providing a comprehensive coverage of the latest technologies underpinning advanced computational design. Worked case studies and over 500 references to the primary research literature allow the reader to gain a full understanding of the technology, giving a valuable insight into the world’s most complex engineering systems. Key Features: Includes background information on the history of aerospace design and established optimization, geometrical and mathematical modelling techniques, setting recent engineering developments in a relevant context. Examines the latest methods such as evolutionary and response surface based optimization, adjoint and numerically differentiated sensitivity codes, uncertainty analysis, and concurrent systems integration schemes using grid-based computing. Methods are illustrated with real-world applications of structural statics, dynamics and fluid mechanics to satellite, aircraft and aero-engine design problems. Senior undergraduate and postgraduate engineering students taking courses in aerospace, vehicle and engine design will find this a valuable resource. It will also be useful for practising engineers and researchers working on computational approaches to design.

Sensitivity and Adjoint Methods for Design of Aerospace Systems
Sensitivity and Adjoint Methods for Design of Aerospace Systems

Author:

Publisher:

Published: 2002

Total Pages: 0

ISBN-13:

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This final technical report contains a summary and highlights of the research funded by the Air Force under AFOSR PRET Grant F49620-96-1-0329, titled "Sensitivity and Adjoint Methods for Design of Aerospace Systems". This research was conducted by the Air Force Center for Optimal Design and Control (CODAC), during the period 1 July 1996 to 31 December 2001. The Center conducts a wide range of research and educational programs, and promotes linkages between Air Force Laboratories, industry and university scientists. The PRET grant focuses on transition through industrial partnerships. During this period, CODAC researchers produced more than 115 scientific papers, made more than 150 presentations at conferences and colloquium and directed more than 20 graduate students and 7 postdocs. The research effort has produced several new computational tools for optimal design and these tools have already been transitioned into commercial software packages. Progress was made on a new sensitivity based method for estimating rotary stability derivatives. A new approach improved the efficiency of automatic differentiation when used in shape optimization. In the area of control, a new computational tool for controller reduction was devised and tested. This tool is based on proper orthogonal decomposition techniques. In addition, this report outlines some of the interactions between CODAC, industrial partners and Air Force facilities.

Optimal Control with Aerospace Applications
Optimal Control with Aerospace Applications

Author: James M Longuski

Publisher: Springer Science & Business Media

Published: 2013-11-04

Total Pages: 286

ISBN-13: 1461489458

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Want to know not just what makes rockets go up but how to do it optimally? Optimal control theory has become such an important field in aerospace engineering that no graduate student or practicing engineer can afford to be without a working knowledge of it. This is the first book that begins from scratch to teach the reader the basic principles of the calculus of variations, develop the necessary conditions step-by-step, and introduce the elementary computational techniques of optimal control. This book, with problems and an online solution manual, provides the graduate-level reader with enough introductory knowledge so that he or she can not only read the literature and study the next level textbook but can also apply the theory to find optimal solutions in practice. No more is needed than the usual background of an undergraduate engineering, science, or mathematics program: namely calculus, differential equations, and numerical integration. Although finding optimal solutions for these problems is a complex process involving the calculus of variations, the authors carefully lay out step-by-step the most important theorems and concepts. Numerous examples are worked to demonstrate how to apply the theories to everything from classical problems (e.g., crossing a river in minimum time) to engineering problems (e.g., minimum-fuel launch of a satellite). Throughout the book use is made of the time-optimal launch of a satellite into orbit as an important case study with detailed analysis of two examples: launch from the Moon and launch from Earth. For launching into the field of optimal solutions, look no further!

Introduction to Optimum Design
Introduction to Optimum Design

Author: Jasbir Arora

Publisher: Academic Press

Published: 2011-08-17

Total Pages: 898

ISBN-13: 0123813751

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Introduction to Optimum Design is the most widely used textbook in engineering optimization and optimum design courses. It is intended for use in a first course on engineering design and optimization at the undergraduate or graduate level within engineering departments of all disciplines, but primarily within mechanical, aerospace and civil engineering. The basic approach of the text is to describe an organized approach to engineering design optimization in a rigorous yet simplified manner, illustrate various concepts and procedures with simple examples, and demonstrate their applicability to engineering design problems. Formulation of a design problem as an optimization problem is emphasized and illustrated throughout the text. Excel and MATLAB are featured throughout as learning and teaching aids. The 3rd edition has been reorganized and enhanced with new material, making the book even more appealing to instructors regardless of the level they teach the course. Examples include moving the introductory chapter on Excel and MATLAB closer to the front of the book and adding an early chapter on practical design examples for the more introductory course, and including a final chapter on advanced topics for the purely graduate level course. Basic concepts of optimality conditions and numerical methods are described with simple and practical examples, making the material highly teachable and learnable. Applications of the methods for structural, mechanical, aerospace and industrial engineering problems. Introduction to MATLAB Optimization Toolbox. Optimum design with Excel Solver has been expanded into a full chapter. Practical design examples introduce students to usage of optimization methods early in the book. New material on several advanced optimum design topics serves the needs of instructors teaching more advanced courses.

Design Sensitivity Analysis
Design Sensitivity Analysis

Author: Lisa G. Stanley

Publisher: SIAM

Published: 2002-01-01

Total Pages: 155

ISBN-13: 0898715245

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Illustrates some of the important issues inherent in using the sensitivity equation method for PDEs.

Advanced Design Problems in Aerospace Engineering
Advanced Design Problems in Aerospace Engineering

Author: Angelo Miele

Publisher: Springer Science & Business Media

Published: 2006-04-11

Total Pages: 192

ISBN-13: 0306486377

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Advanced Design Problems in Aerospace Engineering, Volume 1: Advanced Aerospace Systems presents six authoritative lectures on the use of mathematics in the conceptual design of various types of aircraft and spacecraft. It covers the following topics: design of rocket-powered orbital spacecraft (Miele/Mancuso), design of Moon missions (Miele/Mancuso), design of Mars missions (Miele/Wang), design of an experimental guidance system with a perspective flight path display (Sachs), neighboring vehicle design for a two-stage launch vehicle (Well), and controller design for a flexible aircraft (Hanel/Well). This is a reference book of interest to engineers and scientists working in aerospace engineering and related topics.

Aerospace System Analysis and Optimization in Uncertainty
Aerospace System Analysis and Optimization in Uncertainty

Author: Loïc Brevault

Publisher: Springer Nature

Published: 2020-08-26

Total Pages: 477

ISBN-13: 3030391264

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Spotlighting the field of Multidisciplinary Design Optimization (MDO), this book illustrates and implements state-of-the-art methodologies within the complex process of aerospace system design under uncertainties. The book provides approaches to integrating a multitude of components and constraints with the ultimate goal of reducing design cycles. Insights on a vast assortment of problems are provided, including discipline modeling, sensitivity analysis, uncertainty propagation, reliability analysis, and global multidisciplinary optimization. The extensive range of topics covered include areas of current open research. This Work is destined to become a fundamental reference for aerospace systems engineers, researchers, as well as for practitioners and engineers working in areas of optimization and uncertainty. Part I is largely comprised of fundamentals. Part II presents methodologies for single discipline problems with a review of existing uncertainty propagation, reliability analysis, and optimization techniques. Part III is dedicated to the uncertainty-based MDO and related issues. Part IV deals with three MDO related issues: the multifidelity, the multi-objective optimization and the mixed continuous/discrete optimization and Part V is devoted to test cases for aerospace vehicle design.