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Spacecraft Momentum Control Systems [electronic resource] / by Frederick A. Leve, Brian J. Hamilton, Mason A. Peck.

By: Leve, Frederick A [author.].
Contributor(s): Hamilton, Brian J [author.] | Peck, Mason A [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Space Technology Library: 1010Publisher: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XIX, 247 p. 128 illus., 92 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319225630.Subject(s): Engineering | Dynamics | Ergodic theory | Aerospace engineering | Astronautics | Control engineering | Engineering | Aerospace Technology and Astronautics | Dynamical Systems and Ergodic Theory | ControlAdditional physical formats: Printed edition:: No titleDDC classification: 629.1 Online resources: Click here to access online
Contents:
Overview and Context for Spacecraft Momentum Control -- Agile Spacecraft Dynamics and Control -- Requirements Development for Momentum-Control Systems -- Dynamics of Momentum-Control Devices -- Inner-Loop Control of Momentum-Control Devices -- CMG Arrays -- CMG Singularities -- Steering Algorithms -- Motors in Space -- Bearings and Lubrication in Space -- Integration and Test -- Commercial and Academic Flight Heritage of CMG -- Current State of the Art.
In: Springer eBooksSummary: The goal of this book is to serve both as a practical technical reference and a resource for gaining a fuller understanding of the state of the art of spacecraft momentum control systems, specifically looking at control moment gyroscopes (CMGs). As a result, the subject matter includes theory, technology, and systems engineering. The authors combine material on system-level architecture of spacecraft that feature momentum-control systems with material about the momentum-control hardware and software. This also encompasses material on the theoretical and algorithmic approaches to the control of space vehicles with CMGs. In essence, CMGs are the attitude-control actuators that make contemporary highly agile spacecraft possible. The rise of commercial Earth imaging, the advances in privately built spacecraft (including small satellites), and the growing popularity of the subject matter in academic circles over the past decade argues that now is the time for an in-depth treatment of the topic. CMGs are augmented by reaction wheels and related algorithms for steering all such actuators, which together comprise the field of spacecraft momentum control systems. The material is presented at a level suitable for practicing engineers and those with an undergraduate degree in mechanical, electrical, and/or aerospace engineering.
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Overview and Context for Spacecraft Momentum Control -- Agile Spacecraft Dynamics and Control -- Requirements Development for Momentum-Control Systems -- Dynamics of Momentum-Control Devices -- Inner-Loop Control of Momentum-Control Devices -- CMG Arrays -- CMG Singularities -- Steering Algorithms -- Motors in Space -- Bearings and Lubrication in Space -- Integration and Test -- Commercial and Academic Flight Heritage of CMG -- Current State of the Art.

The goal of this book is to serve both as a practical technical reference and a resource for gaining a fuller understanding of the state of the art of spacecraft momentum control systems, specifically looking at control moment gyroscopes (CMGs). As a result, the subject matter includes theory, technology, and systems engineering. The authors combine material on system-level architecture of spacecraft that feature momentum-control systems with material about the momentum-control hardware and software. This also encompasses material on the theoretical and algorithmic approaches to the control of space vehicles with CMGs. In essence, CMGs are the attitude-control actuators that make contemporary highly agile spacecraft possible. The rise of commercial Earth imaging, the advances in privately built spacecraft (including small satellites), and the growing popularity of the subject matter in academic circles over the past decade argues that now is the time for an in-depth treatment of the topic. CMGs are augmented by reaction wheels and related algorithms for steering all such actuators, which together comprise the field of spacecraft momentum control systems. The material is presented at a level suitable for practicing engineers and those with an undergraduate degree in mechanical, electrical, and/or aerospace engineering.

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