On-orbit operations optimization : modeling and algorithms / Leping Yang, Yanwei Zhu, Xianhai Ren, Yuanwen Zhang. - 1 online resource (xiii, 116 pages) : illustrations (some color) - SpringerBriefs in Optimization, 2190-8354 . - SpringerBriefs in optimization. .

Includes bibliographical references and index.

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.

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 planning.

ISBN: 9781493908387 1493908383 1493908375 9781493908370

Standard No.: 10.1007/978-1-4939-0838-7 doi

Source: Springer

Subjects--Topical Terms:
Space flight--Mathematical models.
Space vehicles--Piloting--Mathematical models.
Space vehicles--Control systems--Mathematical models.
Mathematical optimization.
Space Flight.
Spacecraft.
Mathematics.
TECHNOLOGY & ENGINEERING--Engineering (General)
Mathematical optimization.
Space flight--Mathematical models.
Space vehicles--Control systems--Mathematical models.
Space vehicles--Piloting--Mathematical models.

Subjects--Index Terms: operationeel onderzoek operations research bedrijfswetenschap management science wiskunde mathematics ruimtevlucht space flight optimalisatie optimization wiskundige modellen mathematical models toegepaste wiskunde applied mathematics algoritmen algorithms Mathematics (General) Wiskunde (algemeen)

LC Class. No.: TL 790 / .O73 2014

Dewey Class. No.: 629.4015118

National Library of Medicine Call No.: Online Book