A new strategy of counterattacking anti-satellite based on motion camouflage

Motion Camouflage (MC) is illuminated as a novel strategy in counterattacking anti-satellite by way of stealth trajectory scheduling. The dynamics model of MC in space is developed and a quadratic function with three boundary constraints is employed for trajectory determination. Based on the model a scenario is set to run the simulation. The results indicate given the designed acceleration input, the predator will be moved following a prescribed route, which precisely locates the predator between two objects at each time instant. In the last approaching phase, the motion is achieved with a big bumping rate which guarantees the power of this striking. Methods for deriving minimum fuel cost in the fixed approaching duration and the minimum approaching duration in limited acceleration input are proposed and are verified in the simulation. At last, camouflage is recognized as a multi-faceted affair, in which stealth trajectory design is considered an effective technique in stealth cooperation.

[1]  M. Srinivasan,et al.  Strategies for active camouflage of motion , 1995, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[2]  R. D'Andrea,et al.  Low observability path planning for an unmanned air vehicle using mixed integer linear programming , 2004, 2004 43rd IEEE Conference on Decision and Control (CDC) (IEEE Cat. No.04CH37601).

[3]  N.E. Carey,et al.  Biologically inspired guidance for motion camouflage , 2004, 2004 5th Asian Control Conference (IEEE Cat. No.04EX904).

[4]  Peter W. McOwan,et al.  Towards an autonomous motion camouflage control system , 2002, Proceedings of the 2002 International Joint Conference on Neural Networks. IJCNN'02 (Cat. No.02CH37290).

[5]  P. S. Krishnaprasad,et al.  Steering laws for motion camouflage , 2005, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[6]  Giorgio Saccoccia,et al.  Electric propulsion on SMART-1 - a technology milestone , 2007 .

[7]  T. Collett,et al.  How hoverflies compute interception courses , 1978, Journal of comparative physiology.

[8]  T. Collett,et al.  Visual control of flight behaviour in the hoverflySyritta pipiens L. , 1975, Journal of comparative physiology.

[9]  Paul Glendinning,et al.  The mathematics of motion camouflage , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.