On-Orbit Operations Optimization : Modeling and Algorithms / by Leping Yang, Yanwei Zhu, Xianhai Ren, Yuanwen Zhang

Von:

Yang, Leping [aut]

Mitwirkende(r):

Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Reihen: SpringerBriefs in Optimization | SpringerLink BücherVerlag: New York [u.a.] : Springer, 2014Beschreibung: Online-Ressource (XIII, 116 p. 70 illus., 41 illus. in color, online resource)ISBN:

9781493908387

Schlagwörter:

Andere physische Formen: 9781493908370 | Erscheint auch als: On-orbit operations optimization. Druck-Ausgabe. New York, NY : Springer, 2014. XIII, 116 S.DDC-Klassifikation:

519.6

MSC: MSC: *90-02 | 90C90 | 00A69LOC-Klassifikation:

QA402.5-402.6

DOI: DOI: 10.1007/978-1-4939-0838-7Online-Ressourcen:

Inhalte:

Preface; Acknowledgments; Contents; List of Abbreviations; Chapter 1: Introduction; 1.1 Background; 1.1.1 On-Orbit Servicing Concept; 1.1.2 Key Technology Areas; 1.2 On-Orbit Servicing Operations; 1.3 Optimization Problem; 1.3.1 Constraints; 1.3.2 Dynamics; 1.3.3 Algorithms; 1.4 Outline of the Book; References; Chapter 2: Spacecraft Multi-Mission Planning; 2.1 Problem Formulation; 2.1.1 Planning Model; 2.1.1.1 Decision Variables; 2.1.1.2 Cost Function; 2.1.1.3 Constraints; 2.1.2 Solution Strategy; 2.2 Integer Programming Method for Mission Assignment; 2.2.1 Planning Model; 2.2.2 Algorithms

2.2.3 Numerical Simulation2.3 HGABB for One-to-N Spacecraft Mission Planning; 2.3.1 Planning Model; 2.3.2 Algorithms; 2.3.3 Numerical Simulation; References; Chapter 3: Far-Range Orbital Maneuver Planning; 3.1 Problem Formulation; 3.1.1 Lambert Solution; 3.1.2 Multi-Impulse Trajectory Planning Model; 3.2 Genetic Algorithm for Multi-Impulse Planning; 3.2.1 Genetic Algorithm; 3.2.2 Planning Model; 3.2.3 Numerical Simulation; 3.3 Random Optimization for Multi-Impulse Planning; 3.3.1 Randomized A* Tree Expansion Algorithm; 3.3.2 Planning Model; 3.3.3 Numerical Simulation; References

Chapter 4: Proximity Relative Motion Planning4.1 Problem Formulation; 4.2 Sequential Quadratic Programming for Impulse Thrust Mode; 4.2.1 SQP Algorithm; 4.2.2 Two-Impulse Maneuver Model; 4.2.2.1 Near-Circular Reference Orbit; 4.2.2.2 Elliptical Reference Orbit; 4.2.3 Two-Impulse Trajectory Planning Model; 4.2.4 Numerical Simulation; 4.3 LP for Bang-Bang Thrust Mode; 4.3.1 LP Algorithm; 4.3.1.1 Inequality Constraint; 4.3.1.2 Nonconvex Constraint; 4.3.1.3 Free Decision Variable; 4.3.2 Discrete Dynamic Model; 4.3.3 Constraint Linearization; 4.3.3.1 State Constraint; 4.3.3.2 Control Constraint

4.3.3.3 Safety Constraint4.3.4 Planning Model; 4.3.5 Numerical Simulation; 4.4 Pontryagin´s Maximum Principle for Constant Low Thrust Mode; 4.4.1 Pontryagin´s Maximum Principle; 4.4.2 Dynamic Model; 4.4.3 Planning Model; 4.4.3.1 Minimum-Time Maneuver; 4.4.3.2 Minimum-Fuel Maneuver; 4.4.4 Numerical Simulation; 4.5 hp-APM for Local Inspection Trajectory Planning; 4.5.1 Mission Formulation; 4.5.2 6-DOF Coupled Dynamic Model; 4.5.3 Planning Model; 4.5.4 hp-APM; 4.5.5 Numerical Simulation; 4.6 IAPF for Close Proximity Inspection; 4.6.1 Mission Formulation; 4.6.2 IAPF Algorithm

4.6.3 Control Parameter Optimization4.6.4 Numerical Simulation; 4.7 IDVD for the Maneuvered Customer; 4.7.1 Mission Formulation; 4.7.2 IDVD Algorithm; 4.7.2.1 Translational Motion Planning; 4.7.2.2 Rotational Motion Planning; 4.7.3 Planning Model; 4.7.4 Numerical Simulation; References; Chapter 5: Multi-Spacecraft Coordinated Planning; 5.1 Problem Formulation; 5.1.1 Dynamic Models; 5.1.2 Mission Configurations; 5.1.3 Coordinated Planning; 5.2 Cyclic Pursuit Method; 5.2.1 Fundamentals; 5.2.2 Cyclic Pursuit Control Law; 5.2.2.1 Impulsive Thruster Control Law

5.2.2.2 Continuous Thruster Control Law

Zusammenfassung: On-orbit operations optimization among multiple cooperative or noncooperative spacecraft, which is often challenged by tight constraints and shifting parameters, has grown to be a hot issue in recent years. The authors of this book summarize related optimization problems into four planning categories: spacecraft multi-mission planning, far-range orbital maneuver planning, proximity relative motion planning and multi-spacecraft coordinated planning. The authors then formulate models, introduce optimization methods, and investigate simulation cases that address problems in these four categories. This text will serve as a quick reference for engineers, graduate students, postgraduates in the fields of optimization research and on-orbit operation mission planningPPN: PPN: 1658606957Package identifier: Produktsigel: ZDB-2-SEB | ZDB-2-SXMS | ZDB-2-SMA

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