Unmanned combat aerial vehicle

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A British MQ-9A Reaper operating over Afghanistan in 2009

An unmanned combat aerial vehicle (UCAV), also known as a combat drone, colloquially shortened as drone or battlefield UAV, is an unmanned aerial vehicle (UAV) that is used for intelligence, surveillance, target acquisition, and reconnaissance and carries aircraft ordnance such as missiles, ATGMs, and/or bombs in hardpoints for drone strikes.[1][2][3] These drones are usually under real-time human control, with varying levels of autonomy.[4] Unlike unmanned surveillance and reconnaissance aerial vehicles, UCAVs are used for both drone strikes and battlefield intelligence.

Aircraft of this type have no onboard human pilot.[5] As the operator runs the vehicle from a remote terminal, equipment necessary for a human pilot is not needed, resulting in a lower weight and a smaller size than a manned aircraft. Many countries have operational domestic UCAVs, and many more have imported armed drones or are in the process of developing them.[6]

History[edit]

One of the earliest explorations of the concept of the combat drone was by Lee De Forest, an early inventor of radio devices, and U. A. Sanabria, a TV engineer. They presented their idea in an article in a 1940 publication of Popular Mechanics.[7] The modern military drone as known today was the brainchild of John Stuart Foster Jr., a nuclear physicist and former head of the Lawrence Livermore National Laboratory (then called the Lawrence Radiation Laboratory).[8] In 1971, Foster was a model airplane hobbyist and had the idea this hobby could be applied to building weapons.[8] He drew up plans and by 1973 DARPA (Defense Advanced Research Projects Agency) built two prototypes called "Prairie" and "Calera". They were powered by a modified lawn-mower engine and could stay aloft for two hours while carrying a 28-pound (13 kg) load.[8]

In the 1973 Yom Kippur War, Israel used unarmed U.S. Ryan Firebee target drones to spur Egypt into firing its entire arsenal of anti-aircraft missiles. This mission was accomplished with no injuries to Israeli pilots, who soon exploited the depleted Egyptian defences. In the late 1970s and 80s, Israel developed the Scout and the Pioneer, which represented a shift toward the lighter, glider-type model of UAV in use today. Israel pioneered the use of unmanned aerial vehicles (UAVs) for real-time surveillance, electronic warfare, and decoys.[9][10][11] The images and radar decoying provided by these UAVs helped Israel to completely neutralize the Syrian air defenses in Operation Mole Cricket 19 at the start of the 1982 Lebanon War, resulting in no pilots downed.[12]

In the late 1980s, Iran deployed a drone armed with six RPG-7 rounds in the Iran–Iraq War.[13]

Impressed by Israel's success, the US quickly acquired a number of UAVs, and its Hunter and Pioneer systems are direct derivatives of Israeli models. The first 'UAV war' was the first Persian Gulf War: according to a May 1991 Department of the Navy report: "At least one UAV was airborne at all times during Desert Storm." After the Persian Gulf War successfully demonstrated its utility, global militaries invested widely in the domestic development of combat UAVs.[14] The first "kill" by an American UAV was on October 7, 2001, in Kandahar.[15]

In recent years, the U.S. has increased its use of drone strikes against targets in foreign countries and elsewhere as part of the War on Terror. In January 2014, it was estimated that 2,400 people had died from U.S. drone strikes in five years.[16] In June 2015, the total death toll of U.S. drone strikes was estimated to exceed 6,000.[17]

In 2020, Turkey became the first country to use UCAVs in a large, coordinated attack on a conventional battlefield when they attacked forces in Syria. They were used to attack enemy positions, to provide cover for ground forces and to scout for artillery.[18] Drones were used extensively in the 2020 Nagorno-Karabakh war between Azerbaijan and Armenia.[19] Azerbaijan's use of cheaper Turkish TB2 drones was seen as crucial to their victory against the Armenian forces.[20] Drones were also used extensively during the 2022 Russian invasion of Ukraine.[21] Usage of drones offers a cost advantage: “People are taking small drones, like the ones you can buy at JB Hi-Fi for $2000, putting a grenade on them and flying them over a crowd or a tank and releasing the grenade. You can basically build a $3000 machine to destroy a $5 million piece of equipment that your enemy has.”[22]

A 2022 study that assessed the impact of UCAVs on warfare found that drones were highly vulnerable to air defenses and electronic warfare systems, and that drones could only be put to effective use if they had support from other force structure assets. The study concluded that UCAVs would not on their own have a revolutionizing impact on warfare.[23]

Current[edit]

Below are a list of some current dedicated armed UAV's:

A Turkish Bayraktar TB2 on the runway
Country Manufacturer Aircraft Introduced
United States General Atomics MQ-1 Predator 1995
United States General Atomics MQ-9 Reaper 2007
United States General Atomics MQ-1C Gray Eagle 2009
China Chengdu Aerospace CAIG Wing Loong 2011
China Chengdu Aerospace CAIG Wing Loong-10 2016
China Chengdu Aerospace CAIG Wing Loong II 2017
China Hongdu Aerospace Hongdu GJ-11 2019
Turkey Turkish Aerospace Industries TAI Anka 2010
Turkey Baykar Defense Bayraktar TB2 2014
Turkey Turkish Aerospace Industries TAI Aksungur 2019
Turkey Baykar Defense Bayraktar Akıncı 2021
Pakistan NESC NESCOM Burraq 2016
Pakistan GIDS GIDS Shahpar-2 2021
Iran Qods Aviation Qods Mohajer-6 2017
Iran HESA HESA Shahed-129 2012
Russia Kronshtadt group Kronshtadt Orion 2020

Some reconnaissance drones that have armed capability include the CASC CH-92, IAI Eitan and the HESA Hamaseh.

Future[edit]

Below is a table of some technology demonstrators and projects in development:

The BAE Taranis model is one of the larger designs
Aircraft Country Notes
AVIC Dark Sword China Technology demonstrator/testing
BAE Systems Corax United Kingdom Technology demonstrator
BAE Systems Taranis United Kingdom Technology demonstrator
Boeing Phantom Ray United States Under development/testing
Boeing MQ-28 Ghost Bat Australia Under development/testing
Dassault nEUROn European Consortium Experimental stealth UCAV
EMC Operations Anaconda United Kingdom Under development/testing
Northrop Grumman X-47A United States Technology demonstrator inc. X-47B / C variants
Bayraktar Kızılelma Turkey Under development/testing
TAI Anka-3 Turkey Under development
S-70 Okhotnik-B Russia Under development
DRDO Ghatak India Technology demonstrator
CATS Warrior India Under development
Eurodrone Europe Under development

Israel[edit]

Elbit Hermes 450[edit]

The Israeli Air Force, which operates a squadron of Hermes 450s out of Palmachim Airbase south of Tel Aviv, has adapted the Hermes 450 for use as an assault UAV, reportedly equipping it with two Hellfire missiles or, according to various sources, two Rafael-made missiles. According to Israeli, Palestinian, Lebanese, and independent reports, the Israeli assault UAV has seen aggressive attacks on the Gaza Strip and was used intensively in the Second Lebanon War. Israel has not denied this capability, but to date, its policy has been to not officially confirm it either.[citation needed]

Turkey[edit]

A Turkish Bayraktar Akinci HALE UCAV

TAI Aksungur[edit]

TAI Aksungur is a built by Turkish Aerospace Industries (TAI) for the Turkish Armed Forces.[24][25][26][27] Using existing technology from the TAI Anka series of drones, it is the manufacturer's largest drone,[28] with payload capacity for mission-specific equipment. It is intended to be used for long-term surveillance, signals intelligence, maritime patrol missions, or as an UCAV. The first unit was delivered to the Turkish Naval Forces on 20 October 2021.

Bayraktar Kizilelma[edit]

Bayraktar Kızılelma is a proposed jet-powered, single-engine, low-observable, supersonic, carrier-capable unmanned combat aircraft in development by Baykar, famous for its Bayraktar TB2. On 12 March 2022, Selçuk Bayraktar, CTO of Baykar announced that the first prototype of the Bayraktar Kızılelma has entered the production line.[29][30]

TAI Anka-3[edit]

Anka-3 is the code-name for the new single engine UCAV being developed by TAI.[31] It will have a flying wing form,[32] and will feature low-observable stealth technology. The role of the aircraft will be suppression of enemy air defenses (SEAD), penetration and bomber.[33]

United Kingdom[edit]

BAE Systems Taranis[edit]

Taranis is a British demonstrator program for unmanned combat air vehicle (UCAV) technology. It is part of the UK's Strategic Unmanned Air Vehicle (Experimental) (SUAV[E]) program. BAE describes Taranis's role in this context as following: "This £124m, four -year programme is part of the UK Government's Strategic Unmanned Air Vehicle Experiment (SUAVE) and will result in a UCAV demonstrator with fully integrated autonomous systems and low observable features."

The Taranis demonstrator will have an MTOW (Maximum Takeoff Weight) of about 8000 kilograms and be of comparable size to the BAE Hawk – making it one of the world's largest UAVs. It will be stealthy, fast, and able to deploy a range of munitions over a number of targets, as well as being capable of defending itself against manned and other unmanned enemy aircraft. The first steel was cut in September 2007 and ground testing started in early 2009. The first flight of the Taranis took place in August 2013 in Woomera, Australia.[34] The demonstrator will have two internal weapons bays. With the inclusion of "full autonomy" the intention is thus for this platform to be able to "think for itself" for a large part of the mission.[citation needed]

United States[edit]

J-UCAS[edit]

Joint Unmanned Combat Air Systems, or J-UCAS, was the name for the joint U.S. Navy/U.S. Air Force unmanned combat air vehicle procurement project. J-UCAS was managed by DARPA, the Defense Advanced Research Projects Agency. In the 2006 Quadrennial Defense Review, the J-UCAS program was terminated.[35] The program would have used stealth technologies and allowed UCAVs to be armed with precision-guided weapons such as Joint Direct Attack Munition (JDAM) or precision miniature munitions, such as the Small-Diameter Bomb, which are used to suppress enemy air defenses. Controllers could have used real-time data sources, including satellites, to plan for and respond to changes on and around the battlefield.

A X-47B UCAV technology demonstrator

The program was later revitalized into UCAS-D, a United States Navy program designed to develop a carrier-based unmanned aircraft.[36]

N-UCAS[edit]

UCAS-D and Northrop Grumman X-47B are the U.S. Navy-only successors to the J-UCAS, which was canceled in 2006. Boeing is also working on the X-45N in this sector.

In a New Year 2011 editorial titled "China's Naval Ambitions", The New York Times editorial board argued that "[t]he Pentagon must accelerate efforts to make American naval forces in Asia less vulnerable to Chinese missile threats by giving them the means to project their deterrent power from further offshore. Cutting back purchases of the Navy's DDG-1000 destroyer (with its deficient missile defense system) was a first step. A bigger one would be to reduce the Navy's reliance on short-range manned strike aircraft like the F-18 and the F-35, in favor of the carrier-launched N-UCAS ...."[37]

On 6 January 2011, the DOD announced that this would be one area of additional investment in the 2012 budget request.[38]

USAF Hunter-Killer[edit]

The United States Air Force has shifted its UCAV program from medium-range tactical strike aircraft to long-range strategic bombers.[35] The technology of the Long Range Strike program is based on the Lockheed Martin Polecat demonstrator.

Multinational[edit]

  • EADS Surveyor: The EADS "Surveyor" is still in preliminary investigation phase. It will be a fixed-wing, jet-powered UAV and is being positioned as a replacement for the CL-289. EADS is currently working on a demonstrator, the "Carapas", modified from an Italian Mirach 100 drone. The production Surveyor would be a stealthy machine with a top speed of 850 km/h (530 mph), an endurance of up to three hours, and capable of carrying a sophisticated sensor payload, including SIGINT gear. It would also be able to carry external loads, such as air-dropped sensors or light munitions.[citation needed]

Non-state actors[edit]

During the Battle of Mosul it was reported that commercially available quadcopters and drones were being used by Islamic State of Iraq and Syria (ISIS) as surveillance and weapons delivery platforms using improvised cradles to drop grenades and other explosives.[39] The ISIS drone facility became a target of Royal Air Force strike aircraft.[40]

Other groups in Syria are also thought to have used UAVs in attacks. A swarm of drones armed with bombs attacked Russian bases in western Syria in early January 2018.[41][42]

Counter drone tactics[edit]

There has been widespread use of drones in Russo-Ukrainian War, by Ukrainian forces.[43] GPS signals are used to guide a drone to find Russian artillery and to guide Ukrainian artillery. Jamming these drone GPS signals cause drones to operate less effectively,[44] as the operators of drones have to rely on pre-programmed routes through areas of jamming until communications can be restored. Other systems supplied by the West rely on automation.[45] Systems like the AeroVironment Switchblade can find targets autonomously, requiring human permission only to engage found targets.[43] In October 2022 a video appeared on the web showing two drones colliding and one being rendered unflyable as a result.[46] It was claimed that the filming drone was Ukrainian and the one destroyed was Russian.[46] If this is the case it would be the first recorded case of drone on drone combat.[46]

On 27 December 2022 North Korea sent five drones over the border. One reaching Seoul, all five returned to the North, despite a five-hour chase involving fighter jets and attack helicopters with some 100 rounds being fired. A South Korean KAI KT-1 Woongbi crashed although both crew survived. The Joint Chiefs of Staff (South Korea) released a statement in which it said that while it can stop attack drones, its ability to stop smaller spy drones is “limited”. A senior official, Kang Shin-chul, said: "Our military's lack of preparedness has caused a lot of concern to the people…actively employ detection devices to spot the enemy's drone from an early stage and aggressively deploy strike assets". The South Korean President Yoon Suk-yeol has indicated that South Korea will invest in stealthy drones that could penetrate North Korea, with the creation of a new military unit.[47][48]

The South Korean Defence Ministry announced a new series of anti-drone measures, planning to spend some 560 billion won over the next five years. The money will go towards four new initiatives. One is an airborne laser that will be used to destroy larger drones whilst a jammer would be used on smaller drones. A new counter drone unit, made up of two squadrons, would also be created. The laser is already in the test phase and is expected to become operational in 2027. The jamming system has been described as "soft kill". Further work will be done on stealth jets and anti-rocket artillery systems. The total amount of the spending over the next five years is 331.4 trillion. The previous defence budget for the last financial year was just 54.6 trillion won as a comparison.[49]

Ethics and laws[edit]

Civilian casualties[edit]

Israel[edit]

In March 2009, The Guardian reported allegations that Israeli UAVs armed with missiles killed 48 Palestinian civilians in the Gaza Strip, including two small children in a field and a group of women and girls in an otherwise empty street.[50] In June, Human Rights Watch investigated six UAV attacks that were reported to have resulted in civilian casualties and alleged that Israeli forces either failed to take all feasible precautions to verify that the targets were combatants or failed to distinguish between combatants and civilians.[51][52][53]

United States[edit]

Collateral damage of civilians still takes place with drone combat, although some (like John O. Brennan) have argued that it greatly reduces the likelihood.[54] Although drones enable advanced tactical surveillance and up-to-the-minute data, flaws can become apparent.[55] The U.S. drone program in Pakistan has killed several dozen civilians accidentally.[56] An example is the operation in February 2010 near Khod, in Uruzgan Province, Afghanistan. Over ten civilians in a three-vehicle convoy travelling from Daykundi Province were accidentally killed after a drone crew misidentified the civilians as hostile threats. A force of Bell OH-58 Kiowa helicopters, who were attempting to protect ground troops fighting several kilometers away, fired AGM-114 Hellfire missiles at the vehicles.[57][58]

In 2009, the Brookings Institution reported that in the US-led drone attacks in Pakistan, ten civilians died for every militant killed.[59][60] A former ambassador of Pakistan said that American UAV attacks were turning Pakistani opinion against the United States.[61] The website PakistanBodyCount.Org reported 1,065 civilian deaths between 2004 and 2010.[62] According to a 2010 analysis by the New America Foundation 114 UAV-based missile strikes in northwest Pakistan from 2004 killed between 830 and 1,210 individuals, around 550 to 850 of whom were militants.[63] In October 2013, the Pakistani government revealed that since 2008 317 drone strikes had killed 2,160 Islamic militants and 67 civilians – far less than previous government and independent organization calculations.[64]

In July 2013, former Pentagon lawyer Jeh Johnson said, on a panel at the Aspen Institute's Security Forum, that he felt an emotional reaction upon reading Nasser al-Awlaki's account of how his 16-year-old grandson was killed by a U.S. drone.[65]

In December 2013, a U.S. drone strike in Radda, capital of Yemen's Bayda province, killed members of a wedding party.[66] The following February, Human Rights Watch published a 28-page report reviewing the strike and its legality, among other things. Titled "A Wedding That Became A Funeral", the report concludes that some (but not necessarily all) of the casualties were civilians, not the intended regional Al-Qaeda targets. The organization demanded US and Yemeni investigations into the attack. In its research, HRW "found no evidence that the individuals taking part in the wedding procession posed an imminent threat to life. In the absence of an armed conflict, killing them would be a violation of international human rights law."[67]

Political effects[edit]

As a new weapon, drones are having unforeseen political effects. Some scholars have argued that the extensive use of drones will undermine the popular legitimacy of local governments, which are blamed for permitting the strikes.[68]

On August 6, 2020, U.S. Senators Rand Paul (R-KY), Mike Lee (R-UT), Chris Murphy (D-CT), Chris Coons (D-DE), and Bernie Sanders (I-VT) introduced a bill to ban sales, transfers, and exports of large armed drones to countries outside of NATO amid concerns that civilians were killed with American-made weapons used by Saudi Arabia and the UAE during the Saudi Arabian-led intervention in Yemen. Congress had previously passed a similar measure with bipartisan support, but failed to overcome President Donald Trump's veto.[69]

Psychological effects[edit]

Controllers can also experience psychological stress from the combat they are involved in. A few may even experience posttraumatic stress disorder (PTSD).[70][71] There are some reports of drone pilots struggling with post traumatic stress disorder after they have killed civilians, especially children. Unlike bomber pilots, moreover, drone operators linger long after the explosives strike and see its effects on human bodies in stark detail. The intense training that US drone operators undergo "works to dehumanise the 'enemy' people below whilst glorifying and celebrating the killing process."[72]

Professor Shannon E. French, the director of the Center for Ethics and Excellence at Case Western Reserve University and a former professor at the U.S. Naval Academy, wonders if the PTSD may be rooted in a suspicion that something else was at stake. According to Professor French, the author of the 2003 book The Code of the Warrior:[73]

If [I'm] in the field risking and taking a life, there's a sense that I'm putting skin in the game … I'm taking a risk so it feels more honorable. Someone who kills at a distance—it can make them doubt. Am I truly honorable?

The Missile Technology Control Regime applies to UCAVs.

On 28 October 2009, United Nations Special Rapporteur on extrajudicial, summary or arbitrary executions, Philip Alston, presented a report to the Third Committee (social, humanitarian and cultural) of the General Assembly arguing that the use of unmanned combat air vehicles for targeted killings should be regarded as a breach of international law unless the United States can demonstrate appropriate precautions and accountability mechanisms are in place.[74]

In June 2015 forty-five former US military personnel issued a joint appeal to pilots of aerial drones operating in Afghanistan, Iraq, Syria, Pakistan and elsewhere urging them to refuse to fly and indicated that their missions "profoundly violate domestic and international laws." They noted that these drone attacks also undermine principles of human rights.[17]

Some leaders worry about the effect drone warfare will have on soldiers' psychology. Keith Shurtleff, an army chaplain at Fort Jackson, South Carolina, worries "that as war becomes safer and easier, as soldiers are removed from the horrors of war and see the enemy not as humans but as blips on a screen, there is very real danger of losing the deterrent that such horrors provide".[75] Similar worries surfaced when "smart" bombs began to be used extensively in the First Gulf War.

Stanford's ‘Living Under Drones’ researchers, meanwhile, have shown that civilians in Pakistan and Afghanistan are reluctant to help those hit by the first strikes because rescuers themselves have often been killed by follow-on drone strikes. Injured relatives in the rubble of the first strike have been known to tell their relatives not to help rescue them because of the frequency of these so-called ‘double-tap’ strikes. People also avoid gathering in groups in visible places. Many children are permanently kept indoors and often no longer attend school.[72]

Writer Mark Bowden has disputed this viewpoint saying in his The Atlantic article, "But flying a drone, [the pilot] sees the carnage close-up, in real time—the blood and severed body parts, the arrival of emergency responders, the anguish of friends and family. Often he’s been watching the people he kills for a long time before pulling the trigger. Drone pilots become familiar with their victims.[76] They see them in the ordinary rhythms of their lives—with their wives and friends, with their children. War by remote control turns out to be intimate and disturbing. Pilots are sometimes shaken."[77]

This assessment is corroborated by a sensor operator's account:

The smoke clears, and there’s pieces of the two guys around the crater. And there’s this guy over here, and he’s missing his right leg above his knee. He’s holding it, and he’s rolling around, and the blood is squirting out of his leg … It took him a long time to die. I just watched him.

Back in the United States, a combination of "lower-class" status in the military, overwork, and psychological trauma may be taking a mental toll on drone pilots. These psychological, cultural and career issues appear to have led to a shortfall in USAF drone operators, which is seen as a "dead end job".[79][80]

Stand-off attacks[edit]

The "unmanned" aspect of armed UAVs has raised moral concerns about their use in combat and law enforcement contexts. Attacking humans with remote-controlled machines is even more abstract than the use of other "stand-off" weaponry, such as missiles, artillery and aerial bombardment, possibly depersonalizing the decision to attack. By contrast, UAVs and other stand-off systems reduce casualties among the attackers.[81]

Autonomous attacks[edit]

The picture is further complicated if the UAV can initiate an attack autonomously, without direct human involvement. Such UAVs could possibly react more quickly and without bias, but would lack human sensibility.[82] Heather Roff[clarification needed] replies that lethal autonomous robots (LARs) may not be appropriate for complex conflicts and targeted populations would likely react angrily against them.[82] Will McCants argues that the public would be more outraged by machine failures than human error, making LARs politically implausible.[82] According to Mark Gubrud, claims that drones can be hacked are overblown and misleading and moreover, drones are more likely to be hacked if they're autonomous, because otherwise the human operator would take control: "Giving weapon systems autonomous capabilities is a good way to lose control of them, either due to a programming error, unanticipated circumstances, malfunction, or hack and then not be able to regain control short of blowing them up, hopefully before they've blown up too many other things and people."[83] Others have argued that the technological possibility of autonomy should not obscure the continuing moral responsibilities humans have at every stage.[84] There is an ongoing debate as to whether the attribution of moral responsibility can be apportioned appropriately under existing international humanitarian law, which is based on four principles: military necessity, distinction between military and civilian objects, prohibition of unnecessary suffering, and proportionality.[85]

Public opinion[edit]

In 2013, a Fairleigh Dickinson University poll asked registered voters whether they "approve or disapprove of the U.S. military using drones to carry out attacks abroad on people and other targets deemed a threat to the U.S.?" The results showed that three in every four voters (75%) approved of the U.S. military using drones to carry out attacks, while (13%) disapproved.[86] A poll conducted by the Huffington Post in 2013 also showed a majority supporting targeted killings using drones, though by a smaller margin.[87] A 2015 poll showed Republicans and men are more likely to support U.S. drone strikes, while Democrats, independents, women, young people, and minorities are less supportive.[88]

Outside America, there is widespread opposition to US drone killings. A July 2014 report found a majority or plurality of respondents in 39 of 44 countries surveyed opposed U.S. drone strikes in countries such as Pakistan, Yemen, and Somalia. The U.S., Kenya, and Israel were the only countries where at least half the population supported drone strikes. Venezuela was found to be the most anti-drone country, where 92% of respondents disagreed with U.S. drone strikes, followed closely by Jordan, where 90% disagreed; Israel was shown as the most pro-drone, with 65% in favor of U.S. drone strikes and 27% opposed.[89][90]

Drone carriers[edit]

In March 2013, DARPA began efforts to develop a fleet of small naval vessels capable of launching and retrieving combat drones without the need for large and expensive aircraft carriers.[91] In the UK the UXV Combatant, which would have been a ship dedicated to UCAVs, was proposed for the Royal Navy.[92]

In November 2014, US DoD made an open request for ideas on how to build an airborne aircraft carrier that can launch and retrieve drones using existing military aircraft such as the B-1B, B-52 or C-130.[93]

In February 2021, President of the Turkish Presidency of Defense Industries (SSB) Ismail Demir made public a new type of UAV being developed by Baykar that is planned to be stationed on Turkey's first amphibious assault ship, TCG Anadolu.[94] The new aircraft Baykar Bayraktar TB3 being developed is a naval version of the Bayraktar TB2 equipped with a local engine developed by TEI.[95] According to the initial plans, the ship was expected to be equipped with F-35B fighter jets, but following the removal of Turkey from the procurement program, the vessel entered into a modification process to be able to accommodate UAVs. Mr. Demir stated that between 30 and 50 folding-winged Bayraktar TB3 UAVs will be able to land and take off using the deck of Anadolu.[96][97]

Users[edit]

Countries with known operational armed drones:

See also[edit]

Further reading[edit]

References[edit]

  1. ^ Austin, Reg (2010). Unmanned aircraft systems : UAVs design, development and deployment. Chichester: Wiley. ISBN 978-0-470-05819-0.
  2. ^ "Drone warfare: The death of precision". Bulletin of the Atomic Scientists. 2017-05-11. Archived from the original on 2017-10-11. Retrieved 2017-07-22.
  3. ^ Kennedy, Caroline; Rogers, James I. (2015-02-17). "Virtuous drones?". The International Journal of Human Rights. 19 (2): 211–227. doi:10.1080/13642987.2014.991217. ISSN 1364-2987. S2CID 219639786.
  4. ^ "The Simulation of the Human-Machine Partnership in UCAV Operation" (PDF). College of Aeronautics, Northwestern Polytechnical University, Xi'an 710072, China. Archived (PDF) from the original on 2017-08-05. Retrieved 7 February 2013.
  5. ^ Dowd, Alan. "Drone wars: risks and warnings". Retrieved 4 March 2014.
  6. ^ The number of countries that are manufacturing armed drones varies by source. See for example:
    • International Institute for Strategic Studies (IISS) (14 February 2018). "The Military Balance 2018". The Military Balance. Routledge. 118: 21., listing the United States, Israel, China, Turkey, and Iran
    • Peter Bergen; David Sterman; Alyssa Sims; Albert Ford; Christopher Mellon. "Who Has What: Countries Developing Armed Drones". International Security Program. New America. Archived from the original on 2018-04-17. Retrieved 2018-11-14., listing the United States, Sweden, South Africa, France, Spain, Italy, Greece, Switzerland, the UK, Russia, Ukraine, Turkey, Georgia, Israel, Jordan, Iran, the UAE, Saudi Arabia, India, Pakistan, North Korea, South Korea, China, Taiwan and Australia
  7. ^ "Robot Television Bomber" Popular Mechanics June 1940
  8. ^ a b c Fred Kaplan (June 7, 2013). "The World as Free-Fire Zone". MIT Technology Review. Retrieved June 17, 2013.
  9. ^ "A Brief History of UAVs". 22 July 2008. Archived from the original on 2013-05-22. Retrieved 2013-08-14.
  10. ^ "Russia Buys A Bunch Of Israeli UAVs". Archived from the original on 2013-10-26. Retrieved 2013-08-14.
  11. ^ Azoulai, Yuval (October 24, 2011). "Unmanned combat vehicles shaping future warfare". Globes. Archived from the original on 2013-12-03. Retrieved 2013-08-14.
  12. ^ Levinson, Charles (January 12, 2010). "Israeli Robots Remake Battlefield". The Wall Street Journal. p. A10. Archived from the original on 2015-05-03. Retrieved January 13, 2010.
  13. ^ Haghshenass, Fariborz (September 2008), "Iran's Asymmetric Naval Warfare" (PDF), Policy Focus, The Washington Institute for Near East Policy, no. 87, p. 17, archived (PDF) from the original on 2013-12-12, retrieved 2013-12-07
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  16. ^ "The Toll Of 5 Years Of Drone Strikes". The Huffington Post. 24 January 2014. Archived from the original on 2014-10-07. Retrieved 5 October 2014.
  17. ^ a b Ed Pilkington (June 17, 2015). "Former US military personnel urge drone pilots to walk away from controls". TheGuardian.com. Archived from the original on 2015-06-18. Retrieved June 18, 2015.
  18. ^ https://www.eliamep.gr/wp-content/uploads/2021/03/Policy-paper-57-Kamaras-final-3.pdf[bare URL PDF]
  19. ^ Shaikh, Shaan; Rumbaugh, Wes (8 December 2020). "The Air and Missile War in Nagorno-Karabakh: Lessons for the Future of Strike and Defense".
  20. ^ "UK wants new drones in wake of Azerbaijan military success". TheGuardian.com. 29 December 2020.
  21. ^ "Why are Ukraine's cheap, slow drones so successful against Russian targets?". NBC News.
  22. ^ "Homegrown defence company helping Ukraine take out Russian drones". Australian Financial Review. 15 May 2022. |date=15 May 2022
  23. ^ Calcara, Antonio; Gilli, Andrea; Gilli, Mauro; Marchetti, Raffaele; Zaccagnini, Ivan (2022). "Why Drones Have Not Revolutionized War: The Enduring Hider-Finder Competition in Air Warfare". International Security. 46 (4): 130–171. doi:10.1162/isec_a_00431. ISSN 0162-2889. S2CID 248723656.
  24. ^ Wong, Kelvin (17 April 2019). "Turkey advances Anka-Aksungur MALE UAV development". Jane's 360. Archived from the original on 1 June 2019. Retrieved 20 May 2019.
  25. ^ "Turkish Aerospace Industries working on supersonic UAV". Daily Sabah. 5 May 2019. Archived from the original on 6 May 2019. Retrieved 19 May 2019.
  26. ^ "Getting Ready for Takeoff". defensenews.com. 18 Jan 2010. Archived from the original on 31 July 2012. Retrieved 4 Jun 2010.
  27. ^ Cite error: The named reference tai was invoked but never defined (see the help page).
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