Decoy effectiveness in a multiple ship environment.
Rockower, Edward B.
MetadataShow full item record
The primary objective of this project is to estimate the effectiveness of decoys against incoming missile attacks in a multiple-ship battle group (BG) environment. In this problem, we allow the number of ships, number of decoys, and the values of ships to vary. We also vary the values of the hard kill probabilities, the splash probabilities of decoyed missiles, probabilities that a missile's lock is broken by seduction decoys and the quality factor of the distraction decoys. When an Antiship Cruise Missile (ASCM) attacks a BG, it may hit a ship, it may get shot down, or it may get diverted. If it gets diverted it may lock onto a neighboring friendly ship. The measure of effectiveness is the probability that all ships survive the missile attack. Keywords: Ship defense systems; Battle group level organizations; Guided missile countermeasures; Theses. (EDC)
Showing items related by title, author, creator and subject.
Ballistic missile tracking using the interacting multiple model joint probabilistic data association filter Dunton, Timothy M. (Monterey, California: Naval Postgraduate School, 2013-09);The success of interceptors used by the United States ballistic missile defense program is jeopardized by the use of hostile missile decoy deployment and evasive maneuvers. The ability to discriminate between legitimate ...
Lugo, Manuel X. (Monterey California. Naval Postgraduate School, 2008-03);This thesis focuses on interdiction of Vehicle Borne Improvised Explosive Devices (VBIED) on a major city by using "transparent" and "deceptive" assets. Transparent assets (e.g., road blocks) are those for which we assume ...
Kwon, Ki Hoon (Monterey, California. Naval Postgraduate School, 1989-09);ECM techniques against monopulse radars, which are generally employed in the Surface-to-Air Missile targeting system, are presented and analyzed. Particularly, these ECM techniques classified into five different categories, ...