Principles of spacecraft control : concepts and theory for practical applications / Walter Fichter, Ramin T. Geshnizjani.
2023
TL3250
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Title
Principles of spacecraft control : concepts and theory for practical applications / Walter Fichter, Ramin T. Geshnizjani.
Author
Fichter, Walter, author.
ISBN
9783031047800 (electronic bk.)
303104780X (electronic bk.)
3031047796
9783031047794
303104780X (electronic bk.)
3031047796
9783031047794
Publication Details
Cham, Switzerland : Springer, [2023].
Language
English
Description
1 online resource
Item Number
10.1007/978-3-031-04780-0 doi
Call Number
TL3250
Dewey Decimal Classification
629.4742
Summary
The objective of this textbook is to provide the mathematical models and algorithms needed to develop a thorough understanding of all control system functions of a rigid body spacecraft. Relatively simple, but practically applicable algorithms are presented rather than recent advances. We try to avoid detailed and specialized issues that are of less importance for the fundamental understanding, such as detailed environment models, etc. Furthermore, control problems that can be cast in standard formulations and solved with existing methods are not treated here. Instead, we intend to provide an understanding of the principles, put them in an engineering context, and try to give all explanations as concise as possible. Besides conventional three-axis attitude control systems, the following topics are treated in this book: Control of agile rotation maneuvers using control moment gyros Precise pointing control with error classes for pointing instruments Control systems with accelerometers and free-flying test masses, which provide low-disturbance or disturbance-free environments We believe that these topics are of considerable relevance for the design of future spacecraft control systems, especially in the field of science and Earth observation missions. The Authors Walter Fichter has been in industry for many years, working in the field of guidance, navigation, and controls for spacecraft. Since 2007 he is professor of flight mechanics and controls at the University of Stuttgart. His current research interests include autonomy of aerospace vehicles, intelligent flight, guidance and control of UAVs and urban air mobility vehicles. Ramin Geshnizjani was a researcher at the Institute of Flight Mechanics and Controls of the University of Stuttgart and now works as a development engineer in the aerospace industry. His research interests and current activities include attitude control of agile spacecraft with control moment gyros, navigation and state estimation, and pointing control.
Bibliography, etc. Note
Includes bibliographical references and index.
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Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed October 21, 2022).
Added Author
Geshnizjani, Ramin T. author.
Available in Other Form
Print version: 9783031047794
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Table of Contents
System Engineering Basics
Satellite Motion Models
Rotational State Determination
Actuator Commanding
Attitude and Momentum Control
Accelerometers and Drag-Free Control
Closing Remarks.
Satellite Motion Models
Rotational State Determination
Actuator Commanding
Attitude and Momentum Control
Accelerometers and Drag-Free Control
Closing Remarks.