The advent of maneuvering reentry vehicles (MaRV's) has spurred the need to develop evasive maneuver strategies which (1) are within the aerodynamic performance limits of the MaRV, (2) end up at the intended target, and (3) optimize trajectory characteristics which may increase the probability of penetration through an ABM defense. This report presents an algorithmic approach to automatically generating trajectories which meet these criteria.
Generating optimally evasive MaRV trajectories
1988
58 pages
Report
Keine Angabe
Englisch
Antimissile Defense Systems , Missile Trajectories & Reentry Dynamics , Reentry Vehicles , Trajectories , Ballistic Missile Defense , Acceleration , Aerodynamics , Algorithms , Computerized Control Systems , Computerized Simulation , Economic Analysis , Functional Models , Implementation , Missile Protection , Optimization , Probabilistic Estimation , Velocity , EDB/450500 , EDB/990200
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