COOPERATIVE ATTITUDE SYNCHRONIZATION FOR RIGID-BODY SPACECRAFT VIA VARYING COMMUNICATION TOPOLOGY

Chaoyong Li and Zhihua Qu

References

  1. [1] B. Wie, Space vehicle dynamics and control, Second Edition(Reston, VA: AIAA, 1998).
  2. [2] M. Shuster, Survey of attitude representations, Journal of theAstronautical Sciences, 41, 1993, 439–517.
  3. [3] C. Li, W. Jing, & C. Gao, Adaptive backstepping-based flightcontrol system using integral filters, Aerospace Science andTechnology, 13(2–3), 2009, 105–113.
  4. [4] C. Li & W. Jing, Fuzzy PID controller for 2D differentialgeometric guidance and control problem, Control Theory &Applications, IET, 1(3), 2007, 564–571.
  5. [5] S. Bhat & D. Bernstein, A topological obstruction to continuousglobal stabilization of rotational motion and the unwindingphenomenon, Systems & Control Letters, 39(1), 2000, 63–70.
  6. [6] D. Cabecinhas, R. Cunha, & C. Silvestre, Almost globalstabilization of fully-actuated rigid bodies, Systems & ControlLetters, 58(9), 2009, 639–645.
  7. [7] A. Sarlette, R. Sepulchre, & N. Leonard, Autonomous rigidbody attitude synchronization, Automatica, 45(2), 2009,572–577.118
  8. [8] Z. Qu, Cooperative control of dynamical systems: Applicationsto autonomous vehicles. (London: Springer, 2009).
  9. [9] W. Ren & R. Beard, Distributed consensus in multi-vehiclecooperative control: Theory and applications. (Springer, 2008).
  10. [10] W. Kang & A. Sparks, Coordinated attitude and formationcontrol of multi-satellite systems, in AIAA Guidance, Naviag-tion, and Control Conference and Exhibit, 4655, 2002.
  11. [11] M. VanDyke & C. Hall, Decentralized coordinated attitudecontrol within a formation of spacecraft, Journal of GuidanceControl and Dynamics, 29(5), 2006, 1101.
  12. [12] J. Lawton & R. Beard, Synchronized multiple spacecraft rota-tions, Automatica, 38(8), 2002, 1359–1364.
  13. [13] W. Ren, Synchronized multiple spacecraft rotations: A re-visit in the context of consensus building, American ControlConference, 2007. ACC’07, 2007, 3174–3179.
  14. [14] A. Sarlette, R. Sepulchre, & N. Leonard, Cooperative attitudesynchronization in satellite swarms: a consensus approach,Proceedings of the 17th IFAC Symposium on Automatic ControlAerospace, Toulouse, France, D. Alazard, ed., CD-Rom, 2007.
  15. [15] L. Moreau, Stability of multiagent systems with time-dependentcommunication links, IEEE Transactions on Automatic Con-trol, 50(2), 2005, 169–182.
  16. [16] H. Tanner, A. Jadbabaie, & G. Pappas, Flocking in fixedand switching networks, IEEE Conference on Decision andControl, 1, 2005, 2.
  17. [17] Y. Zhang & Y. Tian, Consentability and protocol designof multi-agent systems with stochastic switching topology,Automatica, 45(5), 2009, 1195–1201.
  18. [18] H. Khalil & J. Grizzle, Nonlinear systems. (Prentice Hall:Englewood Cliffs, NJ, 1996.
  19. [19] H. Jensen & R. Wisniewski, Quaternion feedback controlfor rigid-body spacecraft, AIAA Guidance, Navigation, andControl Conference and Exhibit, AIAA-2001-4338, Montreal,CA, August 6–9 2001.
  20. [20] A. Tayebi, Unit quaternion-based output feedback for theattitude tracking problem, IEEE Transactions on AutomaticControl, 53(6), 2008, 1516–1520.
  21. [21] M. Arcak, Passivity as a design tool for group coordination,IEEE Transactions on Automatic Control, 52(8), 2007,1380–1390.
  22. [22] B. Wie, H. Weiss, & A. Arapostathis, Quarternion feedbackregulator for spacecraft eigenaxis rotations, Journal of Guid-ance, Control, and Dynamics, 12, 1989, 375–380.
  23. [23] P. Tsiotras, Further passivity results for the attitude controlproblem, IEEE Transactions on Automatic Control, 43(11),1998, 1597–1600.
  24. [24] J. Wen & K. Kreutz-Delgado, The attitude control problem,IEEE Transactions on Automatic Control, 36(10), 1991, 1148–1162.
  25. [25] C. Li, Z. Qu, A. Das, & F. Lewis, Cooperative control withimprovable connectivity, Proceeding of 2010 American ControlConference, Baltimore, MD, 2010, 87–92.

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