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3 - Space Vehicle Attitude Dynamics and Control

Published online by Cambridge University Press:  29 April 2019

Ranjan Vepa
Ranjan Vepa
Affiliation:
Queen Mary University of London
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Dynamics and Control of Autonomous Space Vehicles and Robotics , pp. 118 - 166
Publisher: Cambridge University Press
Print publication year: 2019

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References

Kane, T. R., Likins, P. W., and Levinson, D. A. (1983) Spacecraft Dynamics, New York: McGraw-Hill.CrossRefGoogle Scholar
Rimrott, F. P. J. (1989) Introductory Attitude Dynamics, New York: Springer-Verlag.CrossRefGoogle Scholar
Wertz, J. R. and Larson, W. J. (Eds.) (1999) Space Mission Analysis and Design, Dordrecht: Kluwer Academic.Google Scholar
Hughes, P. C. (2004) Spacecraft Attitude Dynamics, Dover Paperback Edition, New York: Dover Publications Inc.Google Scholar
Wertz, J. R. (Ed.) (1978) Spacecraft Attitude Determination and Control, Dordrecht: Kluwer Academic.Google Scholar
DeBra, D. B. and Delp, R. H. (1961) Rigid body attitude stability and natural frequencies in a circular orbit. Journal of the Astronautical Sciences, 8: 1417.Google Scholar
Ogata, K. (2001) Modern Control Engineering, 4th edn, chapters 11 and 12, Upper Saddle River, NJ: Prentice Hall.Google Scholar
Kaplan, M. H. (1986) Modern Spacecraft Dynamics & Control, New York: John Wiley.Google Scholar
Sidi, M. J. (1997) Spacecraft Dynamics and Control, Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Wie, B. (2015) Space Vehicle Guidance Control and Astrodynamics, 3rd edn, New York: AIAA Education Series.CrossRefGoogle Scholar
Romano, M. and Agrawal, B. N. (2004) Attitude dynamics/control of dual-body spacecraft with variable-speed control moment gyros. Journal of Guidance, Control, and Dynamics, 27(4): 513525.CrossRefGoogle Scholar
Vepa, R. (2016) Nonlinear Control of Robots and Unmanned Aerial Vehicles: An Integrated Approach, Boca Raton, FL: CRC Press.CrossRefGoogle Scholar

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