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Control of spacecraft and aircraft PDF

406 Pages·1994·326.071 MB·English
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CONTROL OF SPACECRAFT AND AIRCRAFT Control of Spacecraft and Aircraft ARTHUR E. BRYSON, JR. PRINCETON UNIVERSITY PRESS PRINCETON, NEW JERSEY Copyright © 1994 by Princeton University Press Published by Princeton University Press, 41 William Street, Princeton, New Jersey 08540 In the United Kingdom: Princeton University Press, Chichester, West Sussex All Rights Reserved Library of Congress Cataloging-in-Publication Data Bryson, Arthur E. (Arthur Earl) Control of spacecraft and aircraft / Arthur E. Bryson, Jr. p. cm. Includes bibliographical references and index. ISBN 0-691-08782-2 (alk. paper) 1. Space vehicles-Attitude control systems. 2. Airplanes-Control systems. I. Title. TL3260.B78 1993 629.45-dc20 93-35565 This book has been composed in Linotype Times Roman Princeton University Press books are printed on acid-free paper, and meet the guidelines for permanence and durability of the Committee on Production Guidelines for Book Longevity of the Council on Library Resources Printed in the United States of America 10 9 8 7 6 5 4 3 2 1 To Helen Contents List of Figures Xl List of Tables xix Preface and Acknowledgmeuts XXI Chapter 1 - Natural Motions of Rigid Spacecraft 1 1.1 Translational Motions in Space 1 1.2 Translational Motions in Circular Orbit 1 1.3 Rotational Motions in Space 5 1.4 Rotational Motions in Circular Orbit 7 1.5 Disturbances 14 Chapter 2 - Spacecraft Sensors and Attitude Determination 16 2.1 Introduction 16 2.2 Infra-Red, Optical, and Radar Sensors 17 2.3 Orbital Gyrocompassing 24 2.4 Gyros 25 2.5 Inertial Measurement Units 26 Chapter 3 - Attitude Control with Thrusters 28 3.1 Fast versus Slow Attitude Control 28 3.2 Fast Attitude Control Using Proportional Thrusters 28 3.3 Fast Attitude Control Using On-Off Thrusters 32 Chapter 4 - Attitude Control with Reaction Wheels 37 4.1 Fast Control 37 4.2 Slow Pitch Control Using Gravity Desaturation 41 4.3 Slow RolllYaw Control Using Gravity Desaturation 45 Chapter 5 - Attitude Stabilization with Spin 50 5.1 Spin Stabilization 50 5.2 Nutation Damping 54 5.3 Dual Spin 60 5.4 Offset Axial Thruster 68 viii • CONTENTS Chapter 6 - Attitude Control with a Gimbaled Momentum Wheel 74 6.1 Introduction 74 6.2 Fast Control 74 6.3 Slow Control Using Gravity Desaturation 82 Chapter 7 - Attitude Control during Thrust Maueuvers 93 7.1 Using Reaction Jets 93 7.2 Using a Gimbaled Engine 95 7.3 Using Off-Modulation or Spin 100 Chapter 8 - Control of Translational Motions 102 8.1 Fast Control 102 8.2 Slow Control in Nearly Circular Orbit; Cross Track 106 8.3 Slow Control in Circular Orbit; In-Track/Radial 110 Chapter 9 - Flexibility and Fuel Slosh 114 9.1 Introduction 114 9.2 Control Synthesis Using One Vibration Mode 115 9.3 Parasitic Modes 125 9.4 Control with Fuel Slosh 129 9.5 Robust Compensator Synthesis 132 Chapter 10 - Natural Motions of Rigid Aircraft 142 10.1 Equations ofM otion 142 10.2 Natural Longitudinal Motions 149 10.3 Natural Lateral Motions 155 10.4 Wind Disturbances 159 Chapter 11 - Aircraft Seusors 164 11.1 Introduction 164 11.2 Vertical Gyros 164 11.3 Directional Gyros 169 11.4 Inertial Measurement Units 171 U.5 Baro-InertialAltimeters 176 Chapter 12 - Control of Longitudinal Motions of Aircraft 179 12.1 Introduction 179 12.2 Steady-State Control 182 12.3 Observability and Controllability 187 12.4 Control of Climb Rate and Airspeed 198 12.5 Control ofA ltitude and Airspeed 210 12.6 Glide-Slope Capture and Hold 220 12.7 Flare 225 CONTENTS· ix Chapter 13 - Control of Lateral Motions of Aircraft 232 13.1 Introduction 232 13.2 Steady Bank Angle and Lateral Specific Force 232 13.3 Steady Sideslip and Yaw Rate 239 13.4 Observability and Controllability of Lateral Modes 243 13.5 Control of Bank Angle and Sideforce 247 13.6 Control of Heading and Sideforce 254 13.7 Control of Track and Sideforce 260 Chapter 14 - Control of Helicopters near Hover 271 14.1 Introduction 271 14.2 Small Deviationsfrom Steady Hover 272 14.3 Steady-State Control near Hover 277 14.4 Control of Velocity Vector and Yaw Rate 278 Chapter 15 - Aeroelastic Systems 284 15.1 Introduction 284 15.2 A Simple System with a Flutter Mode 287 15.3 Flutter Suppression for a Simple System 296 Appendix A - Linear System Representations 301 A.1 Representations of Linear Dynamic Systems 301 A.2 Complex Modal State and Residue/Pole 302 A.3 Real Modal State 303 A.4 Factored Residue/Pole 305 A.5 Model Order Reduction 306 A.6 Example of Different Representations for a MIMO System 307 Appendix B - Steady-State Control 311 B.1 Steady-State Control 311 B.2 Nonzero Set Points and Output Commands 3/3 Appendix C - Synthesis of Analog Control Logic 317 C.1 Frequency Response and Root Locus 317 C.2 Pole Placement 318 C.3 Linear-Quadratic-Regulator (LQR) Synthesis 318 C.4 Linear-Quadratic-Gaussian (LQG) Estimator Synthesis 320 C.5 Linear-Quadratic Compensator Synthesis 321 C.6 Optimal Lower-Order LQG Compensators 323 C.7 Asymptotic Model Following 323 C.8 Asymptotic Disturbance Rejection 326

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