Multi-Mission Launcher

The Multi-Mission Launcher (MML) is an open-systems architecture multi-role missile launching system created by the United States Army's Aviation and Missile Research, Development, and Engineering Center.

Multi-Mission Launcher
Typeshort range air defense (SHORAD), Counter Rocket, Artillery, and Mortar (C-RAM), and Multiple rocket launcher
Place of originUnited States
Service history
Used byUnited States Army
Production history
DesignerUS Army Aviation and Missile Research, Development, and Engineering Center (AMRDEC)
ManufacturerUnited States Army
Produced2016
Specifications
Elevation90 degrees
Traverse360 degrees
Effective firing range<3nm for Stinger, <5nm for Hellfire, <22nm for AIM-9x, <40nm for Tamir

Origins

The MML has its roots in the Indirect Fire Protection Capability (IFPC) Increment 2-Intercept program which also included the development of the Miniature Hit-to-Kill Missile. The system is intended to close gaps in the Army's cruise missile, short range air defense (SHORAD) and Counter Rocket, Artillery, and Mortar (C-RAM) defenses.[1]

Development

The MML was developed by the Aviation and Missile Research, Development, and Engineering Center (AMRDEC). Unusually, AMRDEC served as the prime contractor instead of a private defense contractor; this lowers R&D costs as well as allowing the Army full ownership of the weapon system's source code and intellectual property which significantly lowers sustainment cost. The MML is the first major development program successfully undertaken by the government industrial base in more than 30 years.[2] The Miniature Hit-to-Kill Missile was developed by Lockheed Martin specifically for the MML. Intended to fill the C-RAM role this approximately 2.5 foot and 5 pound missile fits four to a MML pod.[3]

Multiple missiles have been integrated and tested with the system. In 2016 FIM-92 Stinger missiles were launched from a single tube MML at Eglin Air Force Base in Florida.[4] AIM-9X Sidewinder and AGM-114 Hellfire missiles launched from a FMTV mounted 15 tube MML were tested at the Army's White Sands Missile Range in New Mexico.[5] In April 2016, also at White Sands and using the FMTV mounted MML, the Army evaluated the Tamir missile. The Tamir missile serves as the interceptor in the Israeli/American Iron Dome System.[6]

By March 2019, the IFPC requirement had been scaled back to focus on cruise missile threats, while C-UAS and C-RAM defense would be handled by other systems; attempting to combine all missions into one system resulted in technical challenges with the payloads and reloading procedures. This allowed the MML to be made larger to accommodate bigger or more missiles. The IFPC will be part of a layered air and missile defense system, with a battery of MMLs attached to each MSHORAD and Patriot missile battalion to handle higher- or lower-end threats.[7] AMRDEC and CMDS will deliver eight MML systems by the end of 2019.[8]

Indirect Fire Protection Capability Increment 2-Intercept

Weapon System

Indirect Fire Protection Capability Increment 2-Intercept (IFPC Inc 2-I) is a mobile ground based multi-role weapons system built around the Integrated Air and Missile Defense Battle Command System with an AN/MPQ-64 Sentinel acting as the prime sensor and truck mounted MML systems as shooters.[9] The acronym IFPC is pronounced "if pick."[10] The Army intends to integrate a 100-kilowatt laser weapon with the system, they awarded a $130m development contract to a joint Dynetics and Lockheed Martin team. Like the MML the system will be integrated with the FMTV. The Army intends to test a full (including laser) IFPC system in 2022.[11] In 2019 the Army announced their intent to field a high powered microwave weapon as part of IFPC by 2024 with a demonstration in 2022.[12]

FMTV mounted Multi-Mission Launcher

The MML is currently planned to be fielded carried aboard a Family of Medium Tactical Vehicles truck, each FMTV carries fifteen MML tubes organized into three five tube clips. The launcher is highly maneuverable with 360 degrees of rotation and a full 90 degrees of elevation. Each FMTV pulls a standard trailer with a tactical missile data link and a standard 60kW generator.[13] Development of the platform utilized components from the M1157 Dump Truck and M142 High Mobility Artillery Rocket System.[14]

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See also

References

  1. Judson, Jen (2018-10-07). "Army nearing strategy on way ahead for Indirect Fire Protection Capability". defensenews.com. Sightline Media Group.
  2. Boyd, Collins. "U.S. Army successfully fires AIM-9X missile from new interceptor launch platform". Army.mil. United States Army. Retrieved 6 November 2018.
  3. Tomkins, Richard. "Lockheed tests mini-missile interceptor". ups.com. United Press International. Retrieved 12 November 2018.
  4. Desk, News (2016-03-29). "Multi-Mission Launcher Launch a Stinger Missile on First Test". Defense Update. Defense Update. Retrieved 6 November 2018.
  5. Boyd, Collins. "U.S. Army successfully fires AIM-9X missile from new interceptor launch platform". Army.mil. United States Army. Retrieved 6 November 2018.
  6. Judson, Jen (2017-08-08). "Israeli Interceptor Launched From US System Destroys Target". Defense News. Retrieved 6 November 2018.
  7. Army Reboots Cruise Missile Defense: IFPC & Iron Dome. Breaking Defense. 11 March 2019.
  8. "Multi-Mission Launcher (MML)". missiledefenseadvocacy.org. Missile Defense Advocacy Alliance. Retrieved 2 August 2019.
  9. Osborn, Kris (2017-01-16). "The U.S. Army's New Missile Launcher Has a Super Game Changing Trick Up Its Sleeve". National Interest. National Interest. Retrieved 6 November 2018.
  10. Dayley, Colonel Brant. "The Future of U.S. Army Missile Defense". www.youtube.com. Center for Strategic & International Studies. Retrieved 10 December 2018.
  11. Judson, Jen (2019-05-16). "Dynetics-Lockheed team beats out Raytheon to build 100-kilowatt laser weapon". defensenews.com. Defense News. Retrieved 20 May 2019.
  12. Judson, Jen. "Soon to come to the Army: A high-power microwave to take out drone swarms". www.defensenews.com. Defense News. Retrieved 8 August 2019.
  13. "Multi-Mission Launcher" (PDF). amrdec.army.mil. AMRDEC. Retrieved 6 November 2018.
  14. Howard, Courtney (September 2015). "U.S. Army engineers prep Multi-Mission Launcher prototype, designed to defeat UAS, missiles, rockets". intelligent-aerospace.com. Intelligent Aerospace. Retrieved 9 May 2019.
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