Man-portable air-defense system

(Redirected from MANPAD)

Man-portable air-defense systems (MANPADS or MPADS) are portable shoulder-fired surface-to-air missiles. They are guided weapons and are a threat to low-flying aircraft, especially helicopters and also used against low-flying cruise missiles. These short-range missiles can also be fired from vehicles, tripods, weapon platforms, and warships.

Chinese made QW-2 MANPADS of the Bangladesh Army
An SA-18 (Igla) missile with launch tube and gripstock (top) and an SA-16 (Igla-1) missile and launch tube (bottom)
A U.S. Marine fires a FIM-92 Stinger missile during a July 2009 training exercise in California.

Overview

edit
 
Japanese airmen aiming a Type 91 Kai MANPADS at a mock airborne target in the Pacific Alaskan Range Complex as part of Red Flag – Alaska in 2008.

MANPADS were developed in the 1950s to provide military ground forces with protection from jet aircraft. They have received a great deal of attention, partly because armed terrorist groups have used them against commercial airliners. These missiles, affordable and widely available through a variety of sources, have been used successfully over the past three decades, both in military conflicts, by militant groups, and by terrorist organizations.[1]

Twenty-five countries, including the China, Iran, Poland, Russia, Sweden, the United Kingdom and the United States produce man-portable air defense systems.[2][3] Possession, export, and trafficking of such weapons is tightly controlled, due to the threat they pose to civil aviation, although such efforts have not always been successful.[4][5]

The missiles are about 1.5 to 1.8 m (5 to 6 ft) in length and weigh about 17 to 18 kg (37 to 40 lb), depending on the model. MANPADS generally have a target detection range of about 10 km (6 mi) and an engagement range of about 6 km (4 mi), so aircraft flying at 6,100 metres (20,000 ft) or higher are relatively safe.[6]

Missile types

edit
 
An FIM-43C Redeye missile just after launch, before the sustainer motor ignites
 
A Starstreak SAM fired from a M1097 AN/TWQ-1 Avenger Air Defense platform.

Infrared

edit

Infrared homing missiles are designed to home-in on a heat source on an aircraft, typically the engine exhaust plume, and detonate a warhead in or near the heat source to disable the aircraft or to simply burst it into flames. These missiles use passive guidance, meaning that they do not emit heat signatures, making them difficult to detect by aircraft employing countermeasure systems.[7]

First generation

edit
 
A Soviet 9K32 Strela-2 in use.

The first missiles deployed in the 1960s were infrared missiles. First generation MANPADS, such as the US Redeye, early versions of the Soviet 9K32 Strela-2, and the Chinese HN-5 (A copy of the Soviet Strela-2), are considered "tail-chase weapons" as their uncooled spin-scan seekers can only discern the superheated interior of the target's jet engine from background noise. This means they are only capable of accurately tracking the aircraft from the rear when the engines are fully exposed to the missile's seeker and provide a sufficient thermal signature for engagement. First generation IR missiles are also highly susceptible to interfering thermal signatures from background sources, including the sun, which many experts feel makes them somewhat unreliable, and they are prone to erratic behaviour in the terminal phase of engagement.[8] While less effective than more modern weapons, they remain common in irregular forces as they are not limited by the short shelf-life of gas coolant cartridges used by later systems.

Second generation

edit

Second generation infrared missiles, such as early versions of the U.S. Stinger, the Soviet Strela-3, and the Chinese FN-6, use gas-cooled seeker heads and a conical scanning technique, which enables the seeker to filter out most interfering background IR sources as well as permitting head-on and side engagement profiles. Later versions of the FIM-43 Redeye are regarded as straddling the first and second generations as they are gas-cooled but still use a spin-scan seeker.[citation needed]

Third generation

edit

Third generation infrared MANPADS, such as the French Mistral, the Soviet 9K38 Igla, and the US Stinger B, use rosette scanning detectors to produce a quasi-image of the target. Their seeker compares input from multiple detections bands, either two widely separated IR bands or IR and UV, giving them much greater ability to discern and reject countermeasures deployed by the target aircraft.[6][8]

Fourth generation

edit

Fourth generation missiles, such as the canceled American FIM-92 Stinger Block 2, Russian Verba, Chinese QW-4, Indian VSHORAD and Japanese Type 91 surface-to-air missile use imaging infrared focal plane array guidance systems and other advanced sensor systems, which permit engagement at greater ranges.[9]

Command line-of-sight

edit

Command guidance (CLOS) missiles do not home in on a particular aspect (heat source or radio or radar transmissions) of the targeted aircraft. Instead, the missile operator or gunner visually acquires the target using a magnified optical sight and then uses radio controls to "fly" the missile into the aircraft. One of the benefits of such a missile is that it is virtually immune to flares and other basic countermeasure systems that are designed primarily to defeat IR missiles. The major drawback of CLOS missiles is that they require highly trained and skilled operators. Numerous reports from the Soviet–Afghan War in the 1980s cite Afghan mujahedin as being disappointed with the British-supplied Blowpipe CLOS missile because it was too difficult to learn to use and highly inaccurate, particularly when employed against fast-moving jet aircraft.[10] Given these considerations, many experts believe that CLOS missiles are not as ideally suited for untrained personnel use as IR missiles, which sometimes are referred to as "fire and forget" missiles.[11]

Later versions of CLOS missiles, such as the British Javelin, use a solid-state television camera in lieu of the optical tracker to make the gunner's task easier. The Javelin's manufacturer, Thales Air Defence, claims that their missile is virtually impervious to countermeasures.[12]

Laser guided

edit
 
RBS 70 and operators in Australian service, 2021

Laser guided MANPADS use beam-riding guidance where a sensor in the missile's tail detects the emissions from a laser on the launcher and attempts to steer the missile to fly at the exact middle of the beam, or between two beams. Missiles such as Sweden's RBS-70 and Britain's Starstreak can engage aircraft from all angles and only require the operator to continuously track the target using a joystick to keep the laser aim point on the target: the latest version of RBS 70 features a tracking engagement mode where fine aim adjustments of the laser emitter are handled by the launcher itself, with the user only having to make coarse aim corrections. Because there are no radio data links from the ground to the missile, the missile cannot be effectively jammed after it is launched. Even though beam-riding missiles require relatively extensive training and skill to operate, many experts consider these missiles particularly menacing due to the missiles' resistance to most conventional countermeasures in use today.[13][14]

Notable uses

edit

Against military aircraft

edit

Against civilian aircraft

edit

Over fifty MANPADS attacks on civilian aircraft are on record to 2007. Thirty-three aircraft were shot down killing over 800 people in the process.[22]

Against cruise missiles

edit

On 10 October 2022, during the 2022 Russian invasion of Ukraine, Ukrainian forces were recorded allegedly shooting down a Russian cruise missile using MANPADS.[23] Since then, other instances have been videoed and shared on social media platforms.[24]

Countermeasures

edit
 
A 9K38 Igla (NATO reporting name: SA-18) dual missile launch platform mounted on a Mercedes-Benz Unimog of the Mexican Navy in a Mexican military parade.

Man-portable air defense systems are a popular black market item for insurgent forces.[25] Their proliferation became the subject of the Wassenaar Arrangement's (WA)22 Elements for Export Controls of MANPADS, the G8 Action Plan of 2 June 2003,[26] the October 2003 Asia-Pacific Economic Cooperation (APEC) Summit, Bangkok Declaration on Partnership for the Future and in July 2003 the Organization for Security and Co-operation in Europe (OSCE), Forum for Security Co-operation, Decision No. 7/03: Man-portable Air Defense Systems.[27]

Understanding the problem in 2003, Colin Powell remarked that there was "no threat more serious to aviation" than the missiles,[28] which can be used to shoot down helicopters and commercial airliners, and are sold illegally for as little as a few hundred dollars. The U.S. has led a global effort to dismantle these weapons, with over 30,000 voluntarily destroyed since 2003, but probably thousands are still in the hands of insurgents, especially in Iraq, where they were looted from the military arsenals of the former dictator Saddam Hussein,[29][30] and in Afghanistan as well. In August 2010, a report by the Federation of American Scientists (FAS) confirmed that "only a handful" of illicit MANPADS were recovered from national resistance caches in Iraq in 2009, according to media reports and interviews with military sources.[31]

Military

edit

With the growing number of MANPADS attacks on civilian airliners, a number of different countermeasure systems have been developed specifically to protect aircraft against the missiles.[citation needed]

Civilian

edit

Weapons by manufacturing country

edit
 
Practice shooting from MANPADS
 
Departure of a rocket from MANPADS
 
HS M09 hybrid air-defense system on BOV-3 vehicle with 8 × Strela 2

Black market

edit

Although most MANPADS are owned and accounted for by governments, political upheavals and corruption have allowed thousands of them to enter the black market. In the years 1998–2018, at least 72 non-state groups have fielded MANPADS.[38] Civilians in the United States cannot legally own MANPADS.[39]

See also

edit

References

edit

Portions of this article were taken from Homeland Security: Protecting Airliners from Terrorist Missiles Archived 5 June 2008 at the Stanford Web Archive, CRS Report for Congress RL31741, February 16, 2006 by the Congressional Research Service, division of The Library of Congress which as a work of the Federal Government exists in the public domain.

  1. ^ Footnote 1 in original source (CRS RL31741): "Shoulder-fired SAMs have been used effectively in a variety of conflicts ranging from the Arab-Israeli Wars, Vietnam, the Iran-Iraq War, to the Falklands Conflict, as well as conflicts in Nicaragua, Yemen, Angola, and Uganda, the Chad-Libya Conflict, and the Balkans Conflict in the 1990s. Some analysts claim that Afghan mujahedin downed 269 Soviet aircraft using 340 shoulder-fired SAMs during the Soviet-Afghan War and that 12 of 29 Allied aircraft shot down during the 1991 Gulf War were downed by MANPADS."
  2. ^ CRS RL31741 page 1
  3. ^ Wade Bose, "Wassenaar Agreement Agrees on MANPADS Export Criteria", Arms Control Today, January/February 2001, p. 1., quoted in CRS RL31741
  4. ^ "MANPADS Proliferation - FAS". Fas.org. Archived from the original on 31 August 2006. Retrieved 4 September 2006.
  5. ^ "Defence & Security Intelligence & Analysis - Jane's 360". Janes.com. Archived from the original on 5 April 2006. Retrieved 4 September 2006.
  6. ^ a b Marvin B. Schaffer, "Concerns About Terrorists With Manportable SAMS", RAND Corporation Reports, October 1993, quoted in CRS RL31741
  7. ^ CRS RL31741 page 1-2
  8. ^ a b CRS RL31741 page 2
  9. ^ "Raytheon Electronic Systems FIM-92 Stinger Low-Altitude Surface-to-Air Missile System Family", Jane's Defence, October 13, 2000, quoted in CRS RL31741
  10. ^ Timothy Gusinov, "Portable Weapons May Become the Next Weapon of Choice for Terrorists", Washington Diplomat, January 2003, p. 2., quoted in CRS RL31741
  11. ^ CRS RL31741 page 2-3
  12. ^ "Land-Based Air Defence 2003-2004", Jane's, 2003, p. 37., quoted in CRS RL31741
  13. ^ CRS RL31741 page 3
  14. ^ Richardson, Mark, and Al-Jaberi, Mubarak, "The vulnerability of laser warning systems against guided weapons based on low power lasers", Cranfield University, April 28, 2006
  15. ^ "Airframe Details for F-16 #84-1390". F-16.net. Archived from the original on 26 December 2016. Retrieved 9 April 2017.
  16. ^ "UK: Igla missile's potent force". BBC News. 13 August 2003. Archived from the original on 8 February 2018. Retrieved 9 April 2017.
  17. ^ Cohen, Roger (11 December 1995). "French Deadline Passes With No Word From Serbs on Pilots". The New York Times. Archived from the original on 12 May 2016. Retrieved 17 February 2017.
  18. ^ John Pike (21 March 1999). "SA-7 Grail". FAS. Archived from the original on 3 February 2009. Retrieved 9 February 2009.
  19. ^ "Russian fighter jet shot down in Syria's Idlib province". BBC. 3 February 2018. Archived from the original on 13 June 2018. Retrieved 21 July 2018.
  20. ^ de Larrinaga, Nicholas (3 May 2014). "Two Ukrainian Mi-24s shot down by MANPADS". IHS Jane's Defence Weekly. Archived from the original on 13 November 2014. Retrieved 4 May 2014.
  21. ^ Northrop Grumman fact sheet Archived 2007-10-30 at the Wayback Machine
  22. ^ "Man-Portable Air Defence Systems (MANPADS) Countering the Terrorist Threat" (PDF). Dept. of Foreign Affairs and Trade. June 2008. p. 11. Retrieved 12 November 2024.
  23. ^ Mazurenko, Alona (10 October 2022). "Ukrainian soldier shoots down missile using portable anti-aircraft missile system". Ukrainska Pravda. Retrieved 23 October 2022.
  24. ^ "Reddit post of MANPADS shooting down a cruise missile". 28 December 2022. Retrieved 31 December 2022.
  25. ^ "MANPADS at a Glance", Arms control.
  26. ^ G-8 to Take Further Steps to Enhance Transportation Security, Federation of American Scientists, archived from the original on 6 November 2010, retrieved 14 August 2010.
  27. ^ Man-Portable Air Defense System (MANPADS) Proliferation, FAS.
  28. ^ "Countering the MANPADS threat: strategies for success (man-portable air defense systems)", Access my library.
  29. ^ Jehl, Douglas; Sanger, David E. (6 November 2004). "U.S. Expands List of Lost Missiles". The New York Times. Archived from the original on 31 July 2017. Retrieved 26 March 2018.
  30. ^ "Iraq's Looted Arms Depots: What the GAO Didn't Mention". Fas.org. Archived from the original on 9 November 2010. Retrieved 14 August 2010.
  31. ^ Drummond, Katie. "Where Have All the MANPADS Gone?". Wired. Archived from the original on 29 December 2013. Retrieved 8 March 2017.
  32. ^ "DRDO conducts successful test flight of VSHORADS missile". Times of India. PTI. 28 September 2022. Retrieved 27 September 2022.
  33. ^ "Iranian TOW Missile Knockoffs Spread to War Zones". Warisboring.com. 18 June 2016. Archived from the original on 5 January 2018. Retrieved 4 January 2018.
  34. ^ "How Iran's Revived Weapons Exports Could Boost Its Proxies". Washingtoninstitute.org. Archived from the original on 4 January 2018. Retrieved 4 January 2018.
  35. ^ "SeaFuture 2023 - First public appearance of MBDA Italy Next Generation V-SHORAD concept mock-up". 5 June 2023.
  36. ^ Kolukısa, Hasan (30 August 2020). "SUNGUR'da PorSav hava savunma füzeleri görüldü". DefenceTurk (in Turkish). Retrieved 25 January 2021.
  37. ^ "Delivery of PorSav Very Low Altitude Air Defense Missile Starts". RayHaber | RaillyNews. 8 May 2020. Retrieved 25 January 2021.
  38. ^ "The Loose "Shoot and Scoot" Missiles and the Threat to Aviation | the New Yorker". The New Yorker. Archived from the original on 14 December 2018. Retrieved 14 December 2018.
  39. ^ Short Range SAM Division, Missile and Space Intelligence Center, Defense Intelligence Agency. Undated (published 2002). https://fas.org/irp/dia/manpads_components.pdf.
edit