Modeling and simulation of aerospace vehicle dynamics / Peter H. Zipfel.

Format:

Book

Author/Creator:

Zipfel, Peter H.

Series:

AIAA education series.

AIAA education series

Language:

English

Subjects (All):

Aerodynamics--Mathematics.

Aerodynamics.

Airplanes--Mathematical models.

Airplanes.

Space vehicles--Dynamics--Mathematical models.

Space vehicles.

Physical Description:

xxii, 567 p. : ill.

Edition:

2nd ed.

Place of Publication:

Reston, Va. : American Institute of Aeronautics and Astronautics, Inc., c2007.

Language Note:

English

Summary:

This book unifies all aspects of flight dynamics for the efficient development of aerospace vehicle simulations. Now in its second edition, its purpose is still to provide the reader with a complete set of tools to build, program, and execute simulations. Unlike other books, it uses tensors for modeling flight dynamics in a form invariant under coordinate transformations. For implementation, the tensors are converted into matrices, resulting in compact computer code. The reader can pick FORTRAN templates of missiles, aircraft, or hypersonic vehicles from the complimentary CADAC CD-ROM to jump-start a particular application, and plot the results of CADAC Studio. It is the only textbook that combines the theory of modeling with hands-on examples of three-, five-, and six-DoF simulations. This new and enlarged edition also serves as anchor for a self-tutoring, three-part course of aerospace simulations in C++, available from AIAA. advanced undergraduate and graduate instruction or for self-study. Seventy eight problems and nine projects amplify the topics and develop the material further. Qualified instructors can obtain a complimentary solution manual from AIAA. which reviewed state-of-the-art FORTRAN simulations, has been replaced by the description of three self-study CD-ROMs of aerospace simulations in C++. These CDs broaden the applications of this book by spanning from simple three degrees of freedom cruise missiles to high fidelity missiles, aircraft, and hypersonic vehicles. The new Appendix D lays the theoretical foundation of tensor flight dynamics. It contains the proofs of the rotational time derivative and the Euler transformation.

Contents:

Cover

Title

Copyright

Foreword

Table of Contents

Preface

List of Acronyms

Overview

Modeling of Flight Dynamics

Frames and Coordinate Systems

Kinematics of Translation and Rotation

Translational Dynamics

Attitude Dynamics

Perturbation Equations

Simulation of Aerospace Vehicles

Five-Degrees-of-Freedom Simulation

Six-Degrees-of-Freedom Simulation

Real-Time Applications

Appendix A : Matrices

Appendix B :CADAC Primer

Appendix C:Aerospace Simulations in C++

Appendix D:Foundation of Tensor Flight Dynamics

Index

Supporting Materials.

Notes:

Title from title screen.

Includes bibliographical references and index.

Digitized and made available by: Books24x7.com.

ISBN:

1-60086-090-7

1-60119-539-7

OCLC:

223986238