Navigation in Space by X-ray Pulsars
(Sprache: Englisch)
This book covers modeling of X-ray pulsar signals and explains how X-ray pulsar signals can be used to solve the relative navigation problem. It formulates the problem, proposes a recursive solution and analyzes different aspects of the navigation system.
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This book covers modeling of X-ray pulsar signals and explains how X-ray pulsar signals can be used to solve the relative navigation problem. It formulates the problem, proposes a recursive solution and analyzes different aspects of the navigation system.
Klappentext zu „Navigation in Space by X-ray Pulsars “
Navigation in Space by X-ray Pulsars will consist of two parts. One is on modeling of X-ray pulsar signals. The second part explains how X-ray pulsar signals can be used to solve the relative navigation problem. This book formulates the problem, proposes a recursive solution, and analyzes different aspects of the navigation system. This book will be a comprehensive source for researchers. It provides new research results on signal processing techniques needed for X-ray pulsar based navigation in deep space.Inhaltsverzeichnis zu „Navigation in Space by X-ray Pulsars “
1 Prologue1.1 Current Spacecraft Navigation Systems
1.2 Pulsar-Based Relative Navigation
1.2.1 Why Relative Navigation? Why Celestial-Based Systems?
1.2.2 Pulsars
1.2.3 Why Use X-ray Pulsars for Navigation?
1.2.4 History of Pulsar-Based Navigation
1.3 Proposed Navigation System Structure
1.4 Thesis Outline
2 Signal Modeling
2.1 X-ray Detectors
2.2 X-ray Pulsar Signal
2.2.1 Constant-Frequency Model
2.2.2 Time-Dependent-Frequency Model
2.3 Discussion
2.4 Epoch Folding
2.4.1 Effect of Velocity Errors
2.5 Generating Photon TOAs
2.6 Simulation
3 Pulse Delay Estimation
3.1 Pulse Delay Estimation
3.2 The Cramér-Rao Lower Bound (CRLB)
3.3 Discussion
3.4 Simulation
4 Pulse Delay Estimation Using Epoch Folding
4.1 Cross Correlation Technique
4.2 Nonlinear Least Squares Technique
4.3 Simulation
5 Pulse Delay Estimation via Direct Use of TOAs
5.1 Maximum-Likelihood Estimator (MLE)
5.2 Numerical Determination of the MLE
5.3 Simulation
6 Recursive Position Estimation
6.1 System Dynamics
6.2 Measurements
6.3 Discrete-Time Estimation Process
6.4 Discussion
6.5 Simulation
7 Epilogue References
Autoren-Porträt von Amir Abbas Emadzadeh, Jason Lee Speyer
Dr. Emadzadeh is a design engineer with Vantage Surgical Systems Inc. As a student he won the UCLA graduate division fellowship award in 2005. Jason Speyer is a Professor of Mechanical and Aerospace Engineering with a joint appointment in Electrical Engineering. He received his B.S. degree in (Aeronautics & Astronautics from MIT in 1960 and his M.S. and Ph.D. degrees from Harvard University in 1965 and 1968. He is a member of the National Academy of Engineering.
Bibliographische Angaben
- Autoren: Amir Abbas Emadzadeh , Jason Lee Speyer
- 2014, 2011, XI, 118 Seiten, Maße: 15,5 x 23,5 cm, Kartoniert (TB), Englisch
- Verlag: Springer, Berlin
- ISBN-10: 1489997598
- ISBN-13: 9781489997593
Sprache:
Englisch
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