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Guidance, navigation, and control for spacecraft rendezvous and dockingtheory and methods /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Guidance, navigation, and control for spacecraft rendezvous and dockingby Yongchun Xie ... [et al.].
Reminder of title:	theory and methods /
other author:	Xie, Yongchun.
Published:	Singapore :Springer Singapore :2021.
Description:	xii, 495 p. :ill. (some col.), digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Orbital rendezvous (Space flight)
Online resource:	https://doi.org/10.1007/978-981-15-6990-6
ISBN:	9789811569906$q(electronic bk.)

Guidance, navigation, and control for spacecraft rendezvous and dockingtheory and methods /
Guidance, navigation, and control for spacecraft rendezvous and dockingtheory and methods /[electronic resource] :by Yongchun Xie ... [et al.]. - Singapore :Springer Singapore :2021. - xii, 495 p. :ill. (some col.), digital ;24 cm.

Introduction -- Rendezvous Kinematics and Dynamics -- Navigation Meathod and Schematic Design for Rendezvous and Docking -- Guidance Meathod and Schematic Design for Rendezvous and Docking -- Automatic Control Method and Scheme Design for Rendezvous and Docking -- Manual Control Method and Scheme Design for Rendezvous and Docking -- Theory and Design of Thruster Configuration and Control Allocation -- Method and Scheme Design of Safety for Rendezvous and Docking -- Simulation Verification of Rendezvous and Docking -- RVD Verification in Orbit Flight.

This book focuses on the theory of and design methods for guidance, navigation, and control (GNC) in the context of spacecraft rendezvous and docking (RVD) The position and attitude dynamics and kinematics equations for RVD are presented systematically and in accordance with several different coordinate systems, including elliptical orbital frame, and recommendations are supplied on which of these equations to use in different phases of RVD. The book subsequently explains the basic principles and relative navigation algorithms of RVD sensors such as GNSS, radar, and camera-type RVD sensors. It also provides guidance algorithms and schemes for different phases of RVD, including the latest research advances in rapid RVD. In turn, the book presents a detailed introduction to intelligent adaptive control and proposes corresponding theoretical approaches to thruster configuration and control allocation for RVD. Emphasis is placed on the design method of active and passive trajectory protection in different phases of RVD, and on the safety design of the RVD mission as a whole. For purposes of verification, the Shenzhou spacecraft's in-orbit flight mission is presented as well. All issues addressed are described and explained from basic principles to detailed engineering methods and examples, providing aerospace engineers and students both a basic understanding of, and numerous practical engineering methods for, GNC system design in RVD.

ISBN: 9789811569906$q(electronic bk.)

Standard No.: 10.1007/978-981-15-6990-6doiSubjects--Topical Terms:

787853
Orbital rendezvous (Space flight)

LC Class. No.: TL1095

Dewey Class. No.: 629.4583

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245 0 0 $a Guidance, navigation, and control for spacecraft rendezvous and docking $h [electronic resource] : $b theory and methods / $c by Yongchun Xie ... [et al.].
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505 0 $a Introduction -- Rendezvous Kinematics and Dynamics -- Navigation Meathod and Schematic Design for Rendezvous and Docking -- Guidance Meathod and Schematic Design for Rendezvous and Docking -- Automatic Control Method and Scheme Design for Rendezvous and Docking -- Manual Control Method and Scheme Design for Rendezvous and Docking -- Theory and Design of Thruster Configuration and Control Allocation -- Method and Scheme Design of Safety for Rendezvous and Docking -- Simulation Verification of Rendezvous and Docking -- RVD Verification in Orbit Flight.
520 $a This book focuses on the theory of and design methods for guidance, navigation, and control (GNC) in the context of spacecraft rendezvous and docking (RVD) The position and attitude dynamics and kinematics equations for RVD are presented systematically and in accordance with several different coordinate systems, including elliptical orbital frame, and recommendations are supplied on which of these equations to use in different phases of RVD. The book subsequently explains the basic principles and relative navigation algorithms of RVD sensors such as GNSS, radar, and camera-type RVD sensors. It also provides guidance algorithms and schemes for different phases of RVD, including the latest research advances in rapid RVD. In turn, the book presents a detailed introduction to intelligent adaptive control and proposes corresponding theoretical approaches to thruster configuration and control allocation for RVD. Emphasis is placed on the design method of active and passive trajectory protection in different phases of RVD, and on the safety design of the RVD mission as a whole. For purposes of verification, the Shenzhou spacecraft's in-orbit flight mission is presented as well. All issues addressed are described and explained from basic principles to detailed engineering methods and examples, providing aerospace engineers and students both a basic understanding of, and numerous practical engineering methods for, GNC system design in RVD.
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650 0 $a Space vehicles $x Automatic control. $3 696399
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