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The MKV concept provided the capability for more than one kill vehicle to be launched from a single booster. The system included a carrier vehicle with on-board sensors and a number of kill vehicles, each equipped with its own navigation thrusters and weighing around 10 pounds (4.5 kg). With multiple kill vehicles on a single target "cloud" the ...
The Exoatmospheric Kill Vehicle (EKV) is the Raytheon-manufactured interceptor component with subcontractor Aerojet of the U.S. Ground-Based Midcourse Defense (GMD), part of the larger National Missile Defense system. The EKV is boosted to an intercept trajectory by a boost vehicle (missile), where it separates from the boost vehicle and ...
The Missile Defense Agency leads the development of anti-ballistic missiles for North America. The Next Generation Interceptor (NGI) [21]: 4:13 is a MDA program to upgrade the kill vehicles for the ground-based interceptors, with different vendors, Lockheed Martin and Northrop Grumman competing. [22]
A Ground-Based Interceptor loaded into a silo at Fort Greely, Alaska in July 2004.. Ground-Based Midcourse Defense (GMD), previously National Missile Defense (NMD), is an anti-ballistic missile system implemented by the United States of America for defense against ballistic missiles, during the midcourse phase of ballistic trajectory flight.
Kill vehicle control test. The test flight was aborted. There was no target in the test. 13 October 1995 Success: Launched to test its target-seeking system. There was no attempt to hit the target in the test. 13 December 1995 Failure: Failed to hit a test target due to software errors in the missile's fuel system. 22 March 1996 Failure
ERIS used a Kinetic Kill Vehicle (KKV), which destroyed its target by force of impact, not by an explosive charge. The KKV on board ERIS inflated into a large, rigid, octagon-shaped structure moments before impact. This increase in KKV diameter increased the chances of impacting and destroying the target ICBM. [1]
In air and missile defense (AMD), the Integrated Air-and-Missile Defense system (IAMD) is a United States Army Space and Missile Defense Command (USASMDC) research program to augment the aging surface-to-air missile defense systems and to provide the United States Army with a low-cost, but effective complement to kinetic energy solutions to take out air threats.
The SM-3 block IB, due in 2010, offers upgrades which include an advanced two-color infrared seeker, and a 10-thruster solid throttling divert and attitude control system (TDACS/SDACS) on the kill vehicle to give it improved capability against maneuvering ballistic missiles or warheads. Solid TDACS is a joint Raytheon/Aerojet project, but ...