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Aerial reconnaissance

January 29, 2024

For broader coverage of this topic, see Aerial photography.

Aerial reconnaissance is reconnaissance for a military or strategic purpose that is conducted using reconnaissance aircraft. The role of reconnaissance can fulfil a variety of requirements including artillery spotting, the collection of imagery intelligence, and the observation of enemy maneuvers.

A USAAF photo-reconnaissance Lockheed F-5 Lightning in flight over Europe circa June 1944. It is marked with invasion stripes to help Allied troops clearly identify it as an Allied plane.

History edit

See also: Aerial photography § History, and Imagery intelligence § History

Early developments edit

See also: Espionage balloon

After the French Revolution, the new rulers became interested in using the balloon to observe enemy manoeuvres and appointed scientist Charles Coutelle to conduct studies using the balloon L'Entreprenant, the first military reconnaissance aircraft. The balloon found its first use in the 1794 conflict with Austria, where in the Battle of Fleurus they gathered information. Moreover, the presence of the balloon had a demoralizing effect on the Austrian troops, which improved the likelihood of victory for the French troops.[1][2] To operate such balloons, a new unit of the French military, the French Aerostatic Corps, was established; this organisation has been recognised as being the world's first air force.[3]

 
Pigeon with German miniature camera, during the First World War

After the invention of photography, primitive aerial photographs were made of the ground from manned and unmanned balloons, starting in the 1860s, and from tethered kites from the 1880s onwards.[4] An example was Arthur Batut's kite-borne camera photographs of Labruguière starting from 1889.[5]

In the early 20th century, Julius Neubronner experimented with pigeon photography. These pigeons carried small cameras that incorporated timers.[6][7]

Ludwig Rahrmann in 1891 patented a means of attaching a camera to a large calibre artillery projectile or rocket, and this inspired Alfred Maul to develop his Maul Camera Rockets starting in 1903.[citation needed] Alfred Nobel in 1896 had already built the first rocket carrying a camera, which took photographs of the Swedish landscape during its flights.[4][8] Maul improved his camera rockets and the Austrian Army even tested them in the Turkish-Bulgarian War in 1912 and 1913, but by then and from that time on camera-carrying aircraft were found to be superior.[9]

The first use of airplanes in combat missions was by the Italian Air Force during the Italo-Turkish War of 1911–1912. On 23 October 1911, an Italian pilot, Capt. Carlo Piazza, flew over the Turkish lines in Libya to conduct an aerial reconnaissance mission;[10] Another aviation first occurred on November 1 with the first ever dropping of an aerial bomb, performed by Sottotenente Giulio Gavotti, on Turkish troops from an early model of Etrich Taube aircraft.[11]

The first reconnaissance flight in Europe took place in Greece, over Thessaly, on 18 October 1912 (5 October by the Julian calendar) over the Ottoman army.[12] The pilot also dropped some hand-grenades over the Turkish Army barracks, although without success. This was the first day of the Balkan wars, and during the same day a similar mission was flown by German mercenaries in Ottoman service in the Thrace front against the Bulgarians. The Greek and the Ottoman mission flown during the same day are the first military aviation combat missions in a conventional war. A few days later, on 16 October 1912, a Bulgarian Albatros aircraft performed one of Europe's first reconnaissance flight in combat conditions,[citation needed] against the Turkish lines on the Balkan peninsula, during the Balkan Wars of 1912–1913.

Maturation during the First World War edit

Main article: Aerial reconnaissance in World War I
 
A B.E.2c reconnaissance aircraft of the RFC with an aerial reconnaissance camera fixed to the side of the fuselage, 1916

The use of aerial photography rapidly matured during the First World War, as aircraft used for reconnaissance purposes were outfitted with cameras to record enemy movements and defences. At the start of the conflict, the usefulness of aerial photography was not fully appreciated, with reconnaissance being accomplished with map sketching from the air.

Frederick Charles Victor Laws started experiments in aerial photography in 1912 with No. 1 Squadron RAF using the British dirigible Beta. He discovered that vertical photos taken with 60% overlap could be used to create a stereoscopic effect when viewed in a stereoscope, thus creating a perception of depth that could aid in cartography and in intelligence derived from aerial images. The dirigibles were eventually allocated to the Royal Navy, so Laws formed the first aerial reconnaissance unit of fixed-wing aircraft; this became No. 3 Squadron RAF.

Germany was one of the first countries to adopt the use of a camera for aerial reconnaissance, opting for a Görz, in 1913. French Military Aviation began the war with several squadrons of Bleriot observation planes, equipped with cameras for reconnaissance. The French Army developed procedures for getting prints into the hands of field commanders in record time.

 
A German observation plane, the Rumpler Taube

The Royal Flying Corps recon pilots began to use cameras for recording their observations in 1914 and by the Battle of Neuve Chapelle in 1915 the entire system of German trenches was being photographed.[13] The first purpose-built and practical aerial camera was invented by Captain John Moore-Brabazon in 1915 with the help of the Thornton-Pickard company, greatly enhancing the efficiency of aerial photography. The camera was inserted into the floor of the aircraft and could be triggered by the pilot at intervals.

Moore-Brabazon also pioneered the incorporation of stereoscopic techniques into aerial photography, allowing the height of objects on the landscape to be discerned by comparing photographs taken at different angles.[14][15] In 1916, the Austro-Hungarian Empire made vertical camera axis aerial photos above Italy for map-making.

By the end of the war, aerial cameras had dramatically increased in size and focal power and were used increasingly frequently as they proved their pivotal military worth; by 1918 both sides were photographing the entire front twice a day and had taken over half a million photos since the beginning of the conflict.

In January 1918, General Allenby used five Australian pilots from No. 1 Squadron AFC to photograph a 624-square-mile (1,620 km2) area in Palestine as an aid to correcting and improving maps of the Turkish front. This was a pioneering use of aerial photography as an aid for cartography. Lieutenants Leonard Taplin, Allan Runciman Brown, H. L. Fraser, Edward Patrick Kenny, and L. W. Rogers photographed a block of land stretching from the Turkish front lines 32 miles (51 km) deep into their rear areas. Beginning 5 January, they flew with a fighter escort to ward off enemy fighters. Using Royal Aircraft Factory BE.12 and Martinsyde airplanes, they not only overcame enemy air attacks, but also bucked 65 mile-per-hour winds, anti-aircraft fire, and malfunctioning equipment to complete their task circa 19 January 1918.[16]

Second World War edit

Main article: Aerial reconnaissance in World War II

High-speed reconnaissance aircraft edit

 
Sidney Cotton's Lockheed 12A, in which he made a high-speed reconnaissance flight in 1940.

During 1928, the Royal Air Force (RAF) developed an electric heating system for the aerial camera; this innovation allowed reconnaissance aircraft to take pictures from very high altitudes without the camera parts freezing.[17] In 1939, Sidney Cotton and Flying Officer Maurice Longbottom of the RAF suggested that airborne reconnaissance may be a task better suited to fast, small aircraft which would use their speed and high service ceiling to avoid detection and interception. Although this may perhaps seem obvious today with modern reconnaissance tasks performed by fast, high flying aircraft, at the time it was radical thinking.[citation needed]

 
This PRU Blue Spitfire PR Mk XI (PL965) was a long range, high-altitude reconnaissance variant capable of flying from airfields in England and photographing targets in Berlin.

Cotton and Longbottom proposed the use of Spitfires with their armament and radios removed and replaced with extra fuel and cameras. This concept led to the development of the Spitfire PR variants. With their armaments removed, these planes could attain a maximum speed of 396 mph while flying at an altitude of 30,000 feet, and were used for photo-reconnaissance missions.[18] The Spitfire PR was fitted with five cameras, which were heated to ensure good results (while the cockpit was not). In the reconnaissance role, the Spitfire proved to be extremely successful, resulting in numerous Spitfire variants being built specifically for that purpose. These served initially with what later became No. 1 Photographic Reconnaissance Unit (PRU).[19]

 
Aerial reconnaissance photographs of Utah Beach prior to the D-Day landings

Other fighters were also adapted for photo-reconnaissance, including the British Mosquito and the American P-38 Lightning and P-51 Mustang. Such aircraft were painted in PRU Blue or Pink camouflage colours to make them difficult to spot in the air, and often were stripped of weapons or had engines modified for better performance at high altitudes (over 40,000 ft (12,000 m)).

The American F-4, a factory modification of the Lockheed P-38 Lightning, replaced the nose-mounted four machine guns and cannon with four high-quality K-17 cameras. Approximately 120 F-4 and F-4As were hurriedly made available by March 1942, reaching the 8th Photographic Squadron in Australia by April (the first P-38s to see action). The F-4 had an early advantage of long range and high speed combined with ability to fly at high altitude; a potent combination for reconnaissance. In the last half of 1942 Lockheed would produce 96 F-5As, based on the P-38G with all later P-38 photo-reconnaissance variants designated F-5. In its reconnaissance role, the Lightning was so effective that over 1,200 F-4 and F-5 variants were delivered by Lockheed, and it was the United States Army Air Forces's (USAAF) primary photo-reconnaissance type used throughout the war in all combat theatres. The Mustang F-6 arrived later in the conflict and, by spring 1945, became the dominant reconnaissance type flown by the USAAF in the European theatre. American photo-reconnaissance operations in Europe were centred at RAF Mount Farm, with the resulting photographs transferred to Medmenham for interpretation. Approximately 15,000 Fairchild K-20 aerial cameras were manufactured for use in Allied reconnaissance aircraft between 1941 and 1945.[20]

The British de Havilland Mosquito excelled in the photo-reconnaissance role; the converted bomber was fitted with three cameras installed in what had been the bomb bay. It had a cruising speed of 255 mph, maximum speed of 362 mph and a maximum altitude of 35,000 feet. The first converted PRU (Photo-Reconnaissance Unit) Mosquito was delivered to RAF Benson in July 1941 by Geoffrey de Havilland himself. The PR Mk XVI and later variants had pressurized cockpits and also pressurized central and inner wing tanks to reduce fuel vaporization at high altitude. The Mosquito was faster than most enemy fighters at 35,000 ft,[21] and could roam almost anywhere. Colonel Roy M. Stanley II of United States Air Force (USAF) stated of the aircraft: "I consider the Mosquito the best photo-reconnaissance aircraft of the war".[22] The United States Army Air Forces (USAAF) designation for the photo-reconnaissance Mosquito was F-8.

Apart from (for example) the Mosquito, most World War II bombers were not as fast as fighters, although they were effective for aerial reconnaissance due to their long range, inherent stability in flight and capacity to carry large camera payloads. American bombers with top speeds of less than 300 mph used for reconnaissance include the B-24 Liberator (photo-reconnaissance variant designated F-7), B-25 Mitchell (F-10) and B-17 Flying Fortress (F-9). The revolutionary B-29 Superfortress was the world's largest combat-operational bomber when it appeared in 1944, with a top speed of over 350 mph which at that time was outstanding for such a large and heavy aircraft; the B-29 also had a pressurized cabin for high altitude flight. The photographic reconnaissance version of the B-29 was designated F-13 and carried a camera suite of three K-17B, two K-22 and one K-18 with provisions for others; it also retained the standard B-29 defensive armament of a dozen .50 caliber machine guns. In November 1944 an F-13 conducted the first flight by an Allied aircraft over Tokyo since the Doolittle Raid of April 1942. The Consolidated B-32 Dominator was also used for reconnaissance over Japan in August 1945.

The Japanese Army Mitsubishi Ki-46, a twin-engined aircraft designed expressly for the reconnaissance role with defensive armament of 1 light machine gun, entered service in 1941. Codenamed "Dinah" this aircraft was fast, elusive and proved difficult for Allied fighters to destroy. More than 1,500 Ki-46s were built and its performance was upgraded later in the war with the Ki-46-III variant. Another purpose-designed reconnaissance aircraft for the Imperial Japanese Navy Air Service was the carrier-based, single-engine Nakajima C6N Saiun ("Iridescent Cloud"). Codenamed "Myrt" by the Allies, the Nakajima C6N first flew in 1943 and was also highly elusive to American aircraft due to its excellent performance and speed of almost 400 mph. As fate would have it on 15 August 1945, a C6N1 was the last aircraft to be shot down in World War II. Japan also developed the high-altitude Tachikawa Ki-74 reconnaissance bomber, which was in a similar class of performance as the Mosquito, but only 16 were built and did not see operational service.

The Luftwaffe began deploying jet aircraft in combat in 1944, and the twin-jet Arado Ar 234 Blitz ("Lightning") reconnaissance bomber was the world's first operational jet-powered bomber. The Ar 234B-1 was equipped with two Rb 50/30 or Rb 75/30 cameras, and its top speed of 460 mph allowed it to outrun the fastest non-jet Allied fighters of the time. The twin piston-engined Junkers Ju 388 high-altitude bomber was an ultimate evolution of the Ju 88 by way of the Ju 188. The photographic reconnaissance Ju 388L variant had a pressurized cockpit from the Ju 388's original multi-role conception as not only a bomber but also a night fighter and bomber destroyer, due to RLM's perceived threat of the U.S.'s high-altitude B-29 (which ended up not being deployed in Europe). Approximately 50 Ju 388Ls were produced under rapidly deteriorating conditions at the end of the war. As with other high performance weapons introduced by Nazi Germany, too many circumstances in the war's logistics had changed by late 1944 for such aircraft to have any impact.

The DFS 228 was a rocket-powered high-altitude reconnaissance aircraft under development in the latter part of World War II. It was designed by Felix Kracht at the Deutsche Forschungsanstalt für Segelflug (German Institute for Sailplane Flight) and in concept is an interesting precursor to the post-war American U-2, being essentially a powered long-wingspan glider intended solely for the high-altitude aerial reconnaissance role. Advanced features of the DFS 228 design included a pressurized escape capsule for the pilot. The aircraft never flew under rocket power with only unpowered glider prototypes flown prior to May 1945.

Imagery analysis edit

Main article: Imagery intelligence
 
RAF Medmenham, where aerial reconnaissance intelligence was analysed

The collection and interpretation of aerial reconnaissance intelligence became a considerable enterprise during the war. Beginning in 1941, RAF Medmenham was the main interpretation centre for photographic reconnaissance operations in the European and Mediterranean theatres.[23][24] The Central Interpretation Unit (CIU) was later amalgamated with the Bomber Command Damage Assessment Section and the Night Photographic Interpretation Section of No 3 Photographic Reconnaissance Unit, RAF Oakington, in 1942.[25]

During 1942 and 1943, the CIU gradually expanded and was involved in the planning stages of practically every operation of the war, and in every aspect of intelligence. In 1945, daily intake of material averaged 25,000 negatives and 60,000 prints. Thirty-six million prints were made during the war. By VE-day, the print library, which documented and stored worldwide cover, held 5,000,000 prints from which 40,000 reports had been produced.[25]

American personnel had for some time formed an increasing part of the CIU and on 1 May 1944 this was finally recognised by changing the title of the unit to the Allied Central Interpretation Unit (ACIU).[25] There were then over 1,700 personnel on the unit's strength. A large number of photographic interpreters were recruited from the Hollywood Film Studios including Xavier Atencio. Two renowned archaeologists also worked there as interpreters: Dorothy Garrod, the first woman to hold an Oxbridge Chair, and Glyn Daniel, who went on to gain popular acclaim as the host of the television game show Animal, Vegetable or Mineral?.[26]

Sidney Cotton's aerial photographs were far ahead of their time. Together with other members of his reconnaissance squadron, he pioneered the technique of high-altitude, high-speed photography that was instrumental in revealing the locations of many crucial military and intelligence targets. Cotton also worked on ideas such as a prototype specialist reconnaissance aircraft and further refinements of photographic equipment. At its peak, British reconnaissance flights yielded 50,000 images per day to interpret.

Of particular significance in the success of the work of Medmenham was the use of stereoscopic images, using a between plate overlap of exactly 60%. Despite initial scepticism about the possibility of German rocket development, stereoscopic analysis proved its existence and major operations, including the 1943 offensives against the V-2 rocket development plant at Peenemünde, were made possible by work carried out at Medmenham. Later offensives were also made against potential launch sites at Wizernes and 96 other launch sites in northern France.

Particularly important sites were measured, from the images, using Swiss stereoautograph machines made by Wild (Heerbrugg) and physical models made to facilitate understanding of what was there or what it was for.

It is claimed that Medmanham's greatest operational success was Operation Crossbow which, from 23 December 1943, destroyed the V-1 infrastructure in northern France.[26] According to R.V. Jones, photographs were used to establish the size and the characteristic launching mechanisms for both the V-1 flying bomb and the V-2 rocket.

Cold War edit

 
Fifth Air Force photographic analyst elucidates the location of enemy flak batteries to plan attacks against enemy positions during the Korean War

Immediately after the Second World War, the long range aerial reconnaissance role was quickly taken up by adapted jet bombers, such as the English Electric Canberra and its American development the Martin B-57, that were capable of flying higher or faster than enemy aircraft or defenses.[27][28][29] Shortly after the Korean War, the United States begun to use RB-47 aircraft; these were at first were converted B-47 bombers, but later purposely built as RB-47 reconnaissance aircraft that had no bombing capability. Large cameras were mounted in the plane's belly and a truncated bomb bay was used for carrying photoflash bombs. Later versions of the RB-47, such as the RB-47H, were extensively modified for signals intelligence (ELINT), with additional equipment operator crew stations in the bomb bay; unarmed weather reconnaissance WB-47s with cameras and meteorological instruments also served the United States Air Force (USAF) during the 1960s.[30][31]

 
Soviet truck convoy deploying missiles near San Cristóbal, Cuba on 14 October 1962 (photograph taken by a U-2.)

The onset of the Cold War led to development of several highly specialized and clandestine strategic reconnaissance aircraft, or spy planes, such as the Lockheed U-2 and its successor the SR-71 Blackbird (both from the United States). Flying these aircraft became an exceptionally demanding task, with crews specially selected and trained due to the aircraft's extreme performance characteristics in addition to risk of being captured as spies. The American U-2 shot down in Soviet airspace and capture of its pilot caused political turmoil at the height of the Cold War.[32]

 
The F-4 Phantom was also modified as an aerial reconnaissance aircraft during the cold war.

Beginning in the early 1960s, United States aerial and satellite reconnaissance was coordinated by the National Reconnaissance Office (NRO). Risks such as loss or capture of reconnaissance aircraft crewmembers also contributed to U.S. development of the Ryan Model 147 RPV (Remotely Piloted Vehicle) unmanned drone aircraft which were partly funded by the NRO[33] during the 1960s.

During the 1960s, the United States Navy opted to convert many of its supersonic carrier-based nuclear bomber, the North American A-5 Vigilante, into the capable RA-5C Vigilante reconnaissance aircraft.[34] Beginning in the early 1980s, the U.S. Navy outfitted and deployed Grumman F-14 Tomcat aircraft in one squadron aboard an aircraft carrier with a system called Tactical Airborne Reconnaissance Pod System (TARPS), which provided naval aerial reconnaissance capability until the Tomcat's retirement in 2006.[35]

Post Cold War edit

Since the 1980s, there has been an increasing tendency for militaries to rely upon assets other than manned aircraft to perform aerial reconnaissance. Alternative platforms include the use of surveillance satellites and unmanned aerial vehicles (UAVs), such as the armed MQ-9 Reaper.[36][unreliable source?] By 2005, such UAVs could reportedly be equipped with compact cameras capable of identifying an object the size of a milk carton from altitudes of 60,000 feet.[37]

The U-2 has repeatedly been considered for retirement in favour of drones.[38][39] In 2011, the USAF revealed plans to replace the U-2 with the RQ-4 Global Hawk, a UAV, within four years;[40] however, in January 2012, it was instead decided to extend the U-2's service life.[41][42][43] Critics have pointed out that the RQ-4's cameras and sensors are less capable and lack all-weather operating capability; however, some of the U-2's sensors could be installed on the RQ-4.[44] In late 2014, Lockheed Martin proposed converting the manned U-2 fleet into UAVs, which would substantially bolster its payload capability;[45] however, the USAF declined to provide funding for such an extensive conversion.[46]

During the 2010s, American defense conglomerate Lockheed Martin promoted its proposal to develop a hypersonic UAV, which it referred to the SR-72 in allusion to its function as a spiritual successor to the retired SR-71 Blackbird.[47][48] The company has also developed several other reconnaissance UAVs, such as the Lockheed Martin RQ-170 Sentinel.[49][50]

Technologies edit

Miniature UAVs edit

Due to the low cost of miniature UAVs, this technology brings aerial reconnaissance into the hands of soldiers on the ground. The soldier on the ground can both control the UAV and see its output, yielding great benefit over a disconnected approach. With small systems being man packable, operators are now able to deploy air assets quickly and directly. The low cost and ease of operation of these miniature UAVs has enabled forces such as the Libyan Rebels to use miniature UAVs.[51]

 
Aeryon Scout VTOL UAV
  • AeroVironment Wasp III (airplane – electric propulsion)
  • Aeryon Scout/Aeryon SkyRanger (VTOL Rotorcraft) – Some UAVs are small enough to carry in a backpack with similar functionality to larger ones
  • EMT Aladin (aircraft – electric – Made in Germany)
  • Bramor C4EYE (aircraft – electric – Made in Slovenia)
  • Bayraktar Mini UAV (aircraft – electric – Made in Turkey)
  • RQ-84Z Areohawk (aircraft – electric – Made in New Zealand)

Low cost miniature UAVs demand increasingly miniature imaging payloads. Developments in miniature electronics have fueled the development of increasingly capable surveillance payloads, allowing miniature UAVs to provide high levels of capability in never before seen packages.[52]

Reconnaissance pods edit

Reconnaissance pods can be carried by fighter-bomber aircraft. Examples include the British Digital Joint Reconnaissance Pod (DJRP);[53] Chinese KZ900; UK RAPTOR; and the US Navy's F-14 Tomcat Tactical Airborne Reconnaissance Pod System (TARPS). Some aircraft made for non-military applications also have reconnaissance pods, i.e. the Qinetiq Mercator.[54]

See also edit

References edit

Citations edit

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  2. ^ Gillispie, Charles Coulston. Science and Polity in France: The Revolutionary and Napoleonic Years. pp. 372–373.
  3. ^ Beadle, Jeremy; Harrison, Ian. First, Lasts & Onlys: Military. p. 42.
  4. ^ a b Nicholas M. Short Sr. "History of Remote Sensing: In the Beginning; Launch Vehicles". from the original on 30 January 2009. Retrieved 2009-03-13.
  5. ^ Podolski Consulting (2009). . Archived from the original on 6 March 2009. Retrieved 13 March 2009.
  6. ^ Nicholas M. Short Sr. "Remote Sensing Tutorial Overview". from the original on 26 February 2009. Retrieved 13 March 2009. (photographs by Alfred Nobel's rocket and the Bavarian pigeon fleet)
  7. ^ . Archived from the original on 6 September 2008. Retrieved 13 March 2009.
  8. ^ "Cameras in Model Rockets: A Short History". 8 January 2007. Retrieved 13 March 2009.
  9. ^ Mark Wade. . Archived from the original on 7 March 2009. Retrieved 13 March 2009. (summary and photo)
  10. ^ Maksel, Rebecca. "The World's First Warplane". airspacemag.com. Retrieved 25 March 2018.
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  12. ^ Walter J. Boyne (ed.) Air Warfare: an International Encyclopedia: A-L, p. 66 Note: The correct date in the Gregorian calendar is 18 October, not 21 as the source claims.
  13. ^ . Archived from the original on 2008-09-06. Retrieved 2014-01-11.
  14. ^ "Royal Flying Corps Founded". History Today.
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  16. ^ . Southsearepublic.org. Archived from the original on July 15, 2012. Retrieved 24 January 2013.
  17. ^ "Photography Before Edgerton". web.mit.edu.
  18. ^ Downing, Taylor (2011). Spies in the Sky. Little Brown Hardbacks (A & C). p. 42. ISBN 978-1-4087-0280-2.
  19. ^ Cotton, Sidney (1969). Aviator Extraordinary: The Sidney Cotton Story. Chatto & Windus. p. 169. ISBN 978-0-7011-1334-6.
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  21. ^ Bowman 2005, p. 21.
  22. ^ Stanley 2010, p. 35.
  23. ^ Downing, Taylor (2011). Spies in the Sky. Little Brown Hardbacks (A & C). pp. 80–81. ISBN 978-1-4087-0280-2.
  24. ^ . Archived from the original on 2012-08-16. Retrieved 2014-01-11.
  25. ^ a b c Allied Central Interpretation Unit (ACIU) March 12, 2013, at the Wayback Machine
  26. ^ a b "Operation Crossbow", BBC2, broadcast 15 May 2011
  27. ^ Polmar 2001, p. 11.
  28. ^ "FAI Canberra World Records." 12 February 2009 at the Wayback Machine fai.org. Retrieved 18 October 2009.
  29. ^ Lewis 1970, p. 371.
  30. ^ "RB-47E USSR Overflights by the 91st SRW." 2008-02-27 at the Wayback Machine The Cold War Museum. Retrieved 16 August 2019.
  31. ^ Natola 2002, pp. 179–181.
  32. ^ Pedlow and Welzenbach 1992, pp. 170–177.
  33. ^ Ehrhard, Thomas P. (July 2010). "Air Force UAVs: The Secret History" (PDF). Defense Technical Information Center (DTIC®). Mitchell Institute for Airpower Studies. from the original on May 18, 2017. Retrieved 20 July 2015.
  34. ^ Grossnick, Roy A. (1997). "Part 10 The Seventies". United States Naval Aviation 1910–1995 (pdf). history.navy.mil. pp. 324–325. ISBN 0-945274-34-3. Retrieved 2 November 2016.
  35. ^ Donald, David. "Northrop Grumman F-14 Tomcat, U.S. Navy today". Warplanes of the Fleet. London: AIRtime Publishing Inc, 2004. ISBN 1-880588-81-1.
  36. ^ Gasparre, Richard (January 25, 2008). "The U.S. and Unmanned Flight: Part 1". airforce-technology.com. Retrieved 13 March 2009.
  37. ^ Fickes, Michael (October 1, 2004). . GovernmentSecurity.com. Archived from the original on March 18, 2005. Retrieved 13 March 2009.
  38. ^ Butler, Amy and David A Fulghum. "USAF not ready to retire the U-2." 8 December 2012 at the Wayback Machine. Aviation Week, 26 August 2008. Retrieved: 10 March 2009.
  39. ^ Sherman, Jason and Daniel G Dupont. "DoD cuts Air Force aircraft fleet." Archived 24 February 2008 at Wikiwix Military.com, 11 January 2006. Retrieved: 8 March 2009.
  40. ^ Majumdar, Dave. "Global Hawk to replace U-2 spy plane in 2015." Air Force Times, 10 August 2011. Retrieved: 22 August 2011.
  41. ^ Shalal-Esa, Andrea. "U.S. Air Force to Kill Global Hawk UAV." Aviation Week, 24 January 2012. Retrieved: 24 January 2012.
  42. ^ Majumdar, Dave. |topnews|text|FRONTPAGE "Sources: USAF to kill block 30 Global Hawks." Defense News 25 January 2012. Retrieved: 25 January 2012.
  43. ^ "Analysts predict A-10, U-2 retirements in FY15." Flightglobal.com, 7 February 2014. Retrieved: 7 December 2015.
  44. ^ Sisk, Richard. "Global Hawk trails U-2 despite retirement plans." DoDBuzz.com, 27 February 2014. Retrieved: 7 December 2015.
  45. ^ Butler, Amy. "Lockheed updates unmanned U-2 concept." Aviation Week, 24 November 2014. Retrieved: 7 December 2015.
  46. ^ Drew, James. "U-2 poised to receive radar upgrade, but not un-manned conversion." Flightglobal.com, 31 July 2015. Retrieved: 7 December 2015.
  47. ^ Norris, Guy (4 November 2013). . Aviation Week & Space Technology. Archived from the original on March 30, 2015.
  48. ^ Bronk, Justin (5 November 2013). "Speed is the New Stealth: The SR-72 Challenges the Future at Mach 6". Royal United Services Institute. Retrieved 22 August 2017.
  49. ^ Axe, David (13 December 2012). "7 Secret Ways America's Stealth Armada Stays Off the Radar". Wired. from the original on 17 December 2012. Retrieved 14 December 2012.
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  52. ^ . Archived from the original on 27 September 2016. Retrieved 26 September 2016.
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  54. ^ Twist, Jo (2 August 2005). "'Eternal planes' to watch over us". BBC News.

Bibliography edit

  • Bowman, Martin. de Havilland Mosquito (Crowood Aviation series). Ramsbury, Marlborough, Wiltshire, UK: The Crowood Press, 2005. ISBN 1-86126-736-3.
  • Lewis, Peter. British Racing and Record Breaking Aircraft. London: Putnam, 1970. ISBN 0-370-00067-6.
  • Natola, Mark. "Boeing B-47 Stratojet." Schiffer Publishing Ltd, 2002. ISBN 0-76431-670-2.
  • Pedlow, Gregory W. & Donald E Welzenbach. The Central Intelligence Agency and Overhead Reconnaissance: The U-2 and Oxcart Programs, 1954–1974. Washington, DC: Central Intelligence Agency, 1992. ISBN 0-7881-8326-5.
  • Polmar, Norman. Spyplane: The U-2 History Declassified. London: Zenith Imprint, 2001. ISBN 0-7603-0957-4.
  • Stanley, Colonel Roy M. II, USAF (Ret). V-Weapons Hunt: Defeating German Secret Weapons. Barnsley, South Yorkshire, UK: Pen & Sword, 2010. ISBN 978-1-84884-259-5.

External links edit

 
Wikimedia Commons has media related to Aerial reconnaissance and Aerial cameras.
 
Wikimedia Commons has media related to Luftbildplanwerk des Deutschen Reiches.
  • National Collection of Aerial Photography The official archive of British Government declassified aerial photography.

January 29, 2024
aerial, reconnaissance, broader, coverage, this, topic, aerial, photography, reconnaissance, military, strategic, purpose, that, conducted, using, reconnaissance, aircraft, role, reconnaissance, fulfil, variety, requirements, including, artillery, spotting, co. For broader coverage of this topic see Aerial photography Aerial reconnaissance is reconnaissance for a military or strategic purpose that is conducted using reconnaissance aircraft The role of reconnaissance can fulfil a variety of requirements including artillery spotting the collection of imagery intelligence and the observation of enemy maneuvers A USAAF photo reconnaissance Lockheed F 5 Lightning in flight over Europe circa June 1944 It is marked with invasion stripes to help Allied troops clearly identify it as an Allied plane Contents 1 History 1 1 Early developments 1 2 Maturation during the First World War 1 3 Second World War 1 3 1 High speed reconnaissance aircraft 1 3 2 Imagery analysis 1 4 Cold War 1 5 Post Cold War 2 Technologies 2 1 Miniature UAVs 2 2 Reconnaissance pods 3 See also 4 References 4 1 Citations 4 2 Bibliography 5 External linksHistory editSee also Aerial photography History and Imagery intelligence History This section duplicates the scope of other articles specifically Aerial photography History Please discuss this issue and help introduce a summary style to the section by replacing the section with a link and a summary or by splitting the content into a new article September 2021 Early developments edit See also Espionage balloon After the French Revolution the new rulers became interested in using the balloon to observe enemy manoeuvres and appointed scientist Charles Coutelle to conduct studies using the balloon L Entreprenant the first military reconnaissance aircraft The balloon found its first use in the 1794 conflict with Austria where in the Battle of Fleurus they gathered information Moreover the presence of the balloon had a demoralizing effect on the Austrian troops which improved the likelihood of victory for the French troops 1 2 To operate such balloons a new unit of the French military the French Aerostatic Corps was established this organisation has been recognised as being the world s first air force 3 nbsp Pigeon with German miniature camera during the First World WarAfter the invention of photography primitive aerial photographs were made of the ground from manned and unmanned balloons starting in the 1860s and from tethered kites from the 1880s onwards 4 An example was Arthur Batut s kite borne camera photographs of Labruguiere starting from 1889 5 In the early 20th century Julius Neubronner experimented with pigeon photography These pigeons carried small cameras that incorporated timers 6 7 Ludwig Rahrmann in 1891 patented a means of attaching a camera to a large calibre artillery projectile or rocket and this inspired Alfred Maul to develop his Maul Camera Rockets starting in 1903 citation needed Alfred Nobel in 1896 had already built the first rocket carrying a camera which took photographs of the Swedish landscape during its flights 4 8 Maul improved his camera rockets and the Austrian Army even tested them in the Turkish Bulgarian War in 1912 and 1913 but by then and from that time on camera carrying aircraft were found to be superior 9 The first use of airplanes in combat missions was by the Italian Air Force during the Italo Turkish War of 1911 1912 On 23 October 1911 an Italian pilot Capt Carlo Piazza flew over the Turkish lines in Libya to conduct an aerial reconnaissance mission 10 Another aviation first occurred on November 1 with the first ever dropping of an aerial bomb performed by Sottotenente Giulio Gavotti on Turkish troops from an early model of Etrich Taube aircraft 11 The first reconnaissance flight in Europe took place in Greece over Thessaly on 18 October 1912 5 October by the Julian calendar over the Ottoman army 12 The pilot also dropped some hand grenades over the Turkish Army barracks although without success This was the first day of the Balkan wars and during the same day a similar mission was flown by German mercenaries in Ottoman service in the Thrace front against the Bulgarians The Greek and the Ottoman mission flown during the same day are the first military aviation combat missions in a conventional war A few days later on 16 October 1912 a Bulgarian Albatros aircraft performed one of Europe s first reconnaissance flight in combat conditions citation needed against the Turkish lines on the Balkan peninsula during the Balkan Wars of 1912 1913 Maturation during the First World War edit Main article Aerial reconnaissance in World War I nbsp A B E 2c reconnaissance aircraft of the RFC with an aerial reconnaissance camera fixed to the side of the fuselage 1916The use of aerial photography rapidly matured during the First World War as aircraft used for reconnaissance purposes were outfitted with cameras to record enemy movements and defences At the start of the conflict the usefulness of aerial photography was not fully appreciated with reconnaissance being accomplished with map sketching from the air Frederick Charles Victor Laws started experiments in aerial photography in 1912 with No 1 Squadron RAF using the British dirigible Beta He discovered that vertical photos taken with 60 overlap could be used to create a stereoscopic effect when viewed in a stereoscope thus creating a perception of depth that could aid in cartography and in intelligence derived from aerial images The dirigibles were eventually allocated to the Royal Navy so Laws formed the first aerial reconnaissance unit of fixed wing aircraft this became No 3 Squadron RAF Germany was one of the first countries to adopt the use of a camera for aerial reconnaissance opting for a Gorz in 1913 French Military Aviation began the war with several squadrons of Bleriot observation planes equipped with cameras for reconnaissance The French Army developed procedures for getting prints into the hands of field commanders in record time nbsp A German observation plane the Rumpler TaubeThe Royal Flying Corps recon pilots began to use cameras for recording their observations in 1914 and by the Battle of Neuve Chapelle in 1915 the entire system of German trenches was being photographed 13 The first purpose built and practical aerial camera was invented by Captain John Moore Brabazon in 1915 with the help of the Thornton Pickard company greatly enhancing the efficiency of aerial photography The camera was inserted into the floor of the aircraft and could be triggered by the pilot at intervals Moore Brabazon also pioneered the incorporation of stereoscopic techniques into aerial photography allowing the height of objects on the landscape to be discerned by comparing photographs taken at different angles 14 15 In 1916 the Austro Hungarian Empire made vertical camera axis aerial photos above Italy for map making By the end of the war aerial cameras had dramatically increased in size and focal power and were used increasingly frequently as they proved their pivotal military worth by 1918 both sides were photographing the entire front twice a day and had taken over half a million photos since the beginning of the conflict In January 1918 General Allenby used five Australian pilots from No 1 Squadron AFC to photograph a 624 square mile 1 620 km2 area in Palestine as an aid to correcting and improving maps of the Turkish front This was a pioneering use of aerial photography as an aid for cartography Lieutenants Leonard Taplin Allan Runciman Brown H L Fraser Edward Patrick Kenny and L W Rogers photographed a block of land stretching from the Turkish front lines 32 miles 51 km deep into their rear areas Beginning 5 January they flew with a fighter escort to ward off enemy fighters Using Royal Aircraft Factory BE 12 and Martinsyde airplanes they not only overcame enemy air attacks but also bucked 65 mile per hour winds anti aircraft fire and malfunctioning equipment to complete their task circa 19 January 1918 16 Second World War edit Main article Aerial reconnaissance in World War II High speed reconnaissance aircraft edit This section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed September 2021 Learn how and when to remove this template message nbsp Sidney Cotton s Lockheed 12A in which he made a high speed reconnaissance flight in 1940 During 1928 the Royal Air Force RAF developed an electric heating system for the aerial camera this innovation allowed reconnaissance aircraft to take pictures from very high altitudes without the camera parts freezing 17 In 1939 Sidney Cotton and Flying Officer Maurice Longbottom of the RAF suggested that airborne reconnaissance may be a task better suited to fast small aircraft which would use their speed and high service ceiling to avoid detection and interception Although this may perhaps seem obvious today with modern reconnaissance tasks performed by fast high flying aircraft at the time it was radical thinking citation needed nbsp This PRU Blue Spitfire PR Mk XI PL965 was a long range high altitude reconnaissance variant capable of flying from airfields in England and photographing targets in Berlin Cotton and Longbottom proposed the use of Spitfires with their armament and radios removed and replaced with extra fuel and cameras This concept led to the development of the Spitfire PR variants With their armaments removed these planes could attain a maximum speed of 396 mph while flying at an altitude of 30 000 feet and were used for photo reconnaissance missions 18 The Spitfire PR was fitted with five cameras which were heated to ensure good results while the cockpit was not In the reconnaissance role the Spitfire proved to be extremely successful resulting in numerous Spitfire variants being built specifically for that purpose These served initially with what later became No 1 Photographic Reconnaissance Unit PRU 19 nbsp Aerial reconnaissance photographs of Utah Beach prior to the D Day landingsOther fighters were also adapted for photo reconnaissance including the British Mosquito and the American P 38 Lightning and P 51 Mustang Such aircraft were painted in PRU Blue or Pink camouflage colours to make them difficult to spot in the air and often were stripped of weapons or had engines modified for better performance at high altitudes over 40 000 ft 12 000 m The American F 4 a factory modification of the Lockheed P 38 Lightning replaced the nose mounted four machine guns and cannon with four high quality K 17 cameras Approximately 120 F 4 and F 4As were hurriedly made available by March 1942 reaching the 8th Photographic Squadron in Australia by April the first P 38s to see action The F 4 had an early advantage of long range and high speed combined with ability to fly at high altitude a potent combination for reconnaissance In the last half of 1942 Lockheed would produce 96 F 5As based on the P 38G with all later P 38 photo reconnaissance variants designated F 5 In its reconnaissance role the Lightning was so effective that over 1 200 F 4 and F 5 variants were delivered by Lockheed and it was the United States Army Air Forces s USAAF primary photo reconnaissance type used throughout the war in all combat theatres The Mustang F 6 arrived later in the conflict and by spring 1945 became the dominant reconnaissance type flown by the USAAF in the European theatre American photo reconnaissance operations in Europe were centred at RAF Mount Farm with the resulting photographs transferred to Medmenham for interpretation Approximately 15 000 Fairchild K 20 aerial cameras were manufactured for use in Allied reconnaissance aircraft between 1941 and 1945 20 The British de Havilland Mosquito excelled in the photo reconnaissance role the converted bomber was fitted with three cameras installed in what had been the bomb bay It had a cruising speed of 255 mph maximum speed of 362 mph and a maximum altitude of 35 000 feet The first converted PRU Photo Reconnaissance Unit Mosquito was delivered to RAF Benson in July 1941 by Geoffrey de Havilland himself The PR Mk XVI and later variants had pressurized cockpits and also pressurized central and inner wing tanks to reduce fuel vaporization at high altitude The Mosquito was faster than most enemy fighters at 35 000 ft 21 and could roam almost anywhere Colonel Roy M Stanley II of United States Air Force USAF stated of the aircraft I consider the Mosquito the best photo reconnaissance aircraft of the war 22 The United States Army Air Forces USAAF designation for the photo reconnaissance Mosquito was F 8 Apart from for example the Mosquito most World War II bombers were not as fast as fighters although they were effective for aerial reconnaissance due to their long range inherent stability in flight and capacity to carry large camera payloads American bombers with top speeds of less than 300 mph used for reconnaissance include the B 24 Liberator photo reconnaissance variant designated F 7 B 25 Mitchell F 10 and B 17 Flying Fortress F 9 The revolutionary B 29 Superfortress was the world s largest combat operational bomber when it appeared in 1944 with a top speed of over 350 mph which at that time was outstanding for such a large and heavy aircraft the B 29 also had a pressurized cabin for high altitude flight The photographic reconnaissance version of the B 29 was designated F 13 and carried a camera suite of three K 17B two K 22 and one K 18 with provisions for others it also retained the standard B 29 defensive armament of a dozen 50 caliber machine guns In November 1944 an F 13 conducted the first flight by an Allied aircraft over Tokyo since the Doolittle Raid of April 1942 The Consolidated B 32 Dominator was also used for reconnaissance over Japan in August 1945 The Japanese Army Mitsubishi Ki 46 a twin engined aircraft designed expressly for the reconnaissance role with defensive armament of 1 light machine gun entered service in 1941 Codenamed Dinah this aircraft was fast elusive and proved difficult for Allied fighters to destroy More than 1 500 Ki 46s were built and its performance was upgraded later in the war with the Ki 46 III variant Another purpose designed reconnaissance aircraft for the Imperial Japanese Navy Air Service was the carrier based single engine Nakajima C6N Saiun Iridescent Cloud Codenamed Myrt by the Allies the Nakajima C6N first flew in 1943 and was also highly elusive to American aircraft due to its excellent performance and speed of almost 400 mph As fate would have it on 15 August 1945 a C6N1 was the last aircraft to be shot down in World War II Japan also developed the high altitude Tachikawa Ki 74 reconnaissance bomber which was in a similar class of performance as the Mosquito but only 16 were built and did not see operational service The Luftwaffe began deploying jet aircraft in combat in 1944 and the twin jet Arado Ar 234 Blitz Lightning reconnaissance bomber was the world s first operational jet powered bomber The Ar 234B 1 was equipped with two Rb 50 30 or Rb 75 30 cameras and its top speed of 460 mph allowed it to outrun the fastest non jet Allied fighters of the time The twin piston engined Junkers Ju 388 high altitude bomber was an ultimate evolution of the Ju 88 by way of the Ju 188 The photographic reconnaissance Ju 388L variant had a pressurized cockpit from the Ju 388 s original multi role conception as not only a bomber but also a night fighter and bomber destroyer due to RLM s perceived threat of the U S s high altitude B 29 which ended up not being deployed in Europe Approximately 50 Ju 388Ls were produced under rapidly deteriorating conditions at the end of the war As with other high performance weapons introduced by Nazi Germany too many circumstances in the war s logistics had changed by late 1944 for such aircraft to have any impact The DFS 228 was a rocket powered high altitude reconnaissance aircraft under development in the latter part of World War II It was designed by Felix Kracht at the Deutsche Forschungsanstalt fur Segelflug German Institute for Sailplane Flight and in concept is an interesting precursor to the post war American U 2 being essentially a powered long wingspan glider intended solely for the high altitude aerial reconnaissance role Advanced features of the DFS 228 design included a pressurized escape capsule for the pilot The aircraft never flew under rocket power with only unpowered glider prototypes flown prior to May 1945 Imagery analysis edit Main article Imagery intelligence nbsp RAF Medmenham where aerial reconnaissance intelligence was analysedThe collection and interpretation of aerial reconnaissance intelligence became a considerable enterprise during the war Beginning in 1941 RAF Medmenham was the main interpretation centre for photographic reconnaissance operations in the European and Mediterranean theatres 23 24 The Central Interpretation Unit CIU was later amalgamated with the Bomber Command Damage Assessment Section and the Night Photographic Interpretation Section of No 3 Photographic Reconnaissance Unit RAF Oakington in 1942 25 During 1942 and 1943 the CIU gradually expanded and was involved in the planning stages of practically every operation of the war and in every aspect of intelligence In 1945 daily intake of material averaged 25 000 negatives and 60 000 prints Thirty six million prints were made during the war By VE day the print library which documented and stored worldwide cover held 5 000 000 prints from which 40 000 reports had been produced 25 American personnel had for some time formed an increasing part of the CIU and on 1 May 1944 this was finally recognised by changing the title of the unit to the Allied Central Interpretation Unit ACIU 25 There were then over 1 700 personnel on the unit s strength A large number of photographic interpreters were recruited from the Hollywood Film Studios including Xavier Atencio Two renowned archaeologists also worked there as interpreters Dorothy Garrod the first woman to hold an Oxbridge Chair and Glyn Daniel who went on to gain popular acclaim as the host of the television game show Animal Vegetable or Mineral 26 Sidney Cotton s aerial photographs were far ahead of their time Together with other members of his reconnaissance squadron he pioneered the technique of high altitude high speed photography that was instrumental in revealing the locations of many crucial military and intelligence targets Cotton also worked on ideas such as a prototype specialist reconnaissance aircraft and further refinements of photographic equipment At its peak British reconnaissance flights yielded 50 000 images per day to interpret Of particular significance in the success of the work of Medmenham was the use of stereoscopic images using a between plate overlap of exactly 60 Despite initial scepticism about the possibility of German rocket development stereoscopic analysis proved its existence and major operations including the 1943 offensives against the V 2 rocket development plant at Peenemunde were made possible by work carried out at Medmenham Later offensives were also made against potential launch sites at Wizernes and 96 other launch sites in northern France Particularly important sites were measured from the images using Swiss stereoautograph machines made by Wild Heerbrugg and physical models made to facilitate understanding of what was there or what it was for It is claimed that Medmanham s greatest operational success was Operation Crossbow which from 23 December 1943 destroyed the V 1 infrastructure in northern France 26 According to R V Jones photographs were used to establish the size and the characteristic launching mechanisms for both the V 1 flying bomb and the V 2 rocket Cold War edit nbsp Fifth Air Force photographic analyst elucidates the location of enemy flak batteries to plan attacks against enemy positions during the Korean WarImmediately after the Second World War the long range aerial reconnaissance role was quickly taken up by adapted jet bombers such as the English Electric Canberra and its American development the Martin B 57 that were capable of flying higher or faster than enemy aircraft or defenses 27 28 29 Shortly after the Korean War the United States begun to use RB 47 aircraft these were at first were converted B 47 bombers but later purposely built as RB 47 reconnaissance aircraft that had no bombing capability Large cameras were mounted in the plane s belly and a truncated bomb bay was used for carrying photoflash bombs Later versions of the RB 47 such as the RB 47H were extensively modified for signals intelligence ELINT with additional equipment operator crew stations in the bomb bay unarmed weather reconnaissance WB 47s with cameras and meteorological instruments also served the United States Air Force USAF during the 1960s 30 31 nbsp Soviet truck convoy deploying missiles near San Cristobal Cuba on 14 October 1962 photograph taken by a U 2 The onset of the Cold War led to development of several highly specialized and clandestine strategic reconnaissance aircraft or spy planes such as the Lockheed U 2 and its successor the SR 71 Blackbird both from the United States Flying these aircraft became an exceptionally demanding task with crews specially selected and trained due to the aircraft s extreme performance characteristics in addition to risk of being captured as spies The American U 2 shot down in Soviet airspace and capture of its pilot caused political turmoil at the height of the Cold War 32 nbsp The F 4 Phantom was also modified as an aerial reconnaissance aircraft during the cold war Beginning in the early 1960s United States aerial and satellite reconnaissance was coordinated by the National Reconnaissance Office NRO Risks such as loss or capture of reconnaissance aircraft crewmembers also contributed to U S development of the Ryan Model 147 RPV Remotely Piloted Vehicle unmanned drone aircraft which were partly funded by the NRO 33 during the 1960s During the 1960s the United States Navy opted to convert many of its supersonic carrier based nuclear bomber the North American A 5 Vigilante into the capable RA 5C Vigilante reconnaissance aircraft 34 Beginning in the early 1980s the U S Navy outfitted and deployed Grumman F 14 Tomcat aircraft in one squadron aboard an aircraft carrier with a system called Tactical Airborne Reconnaissance Pod System TARPS which provided naval aerial reconnaissance capability until the Tomcat s retirement in 2006 35 Post Cold War edit Since the 1980s there has been an increasing tendency for militaries to rely upon assets other than manned aircraft to perform aerial reconnaissance Alternative platforms include the use of surveillance satellites and unmanned aerial vehicles UAVs such as the armed MQ 9 Reaper 36 unreliable source By 2005 such UAVs could reportedly be equipped with compact cameras capable of identifying an object the size of a milk carton from altitudes of 60 000 feet 37 The U 2 has repeatedly been considered for retirement in favour of drones 38 39 In 2011 the USAF revealed plans to replace the U 2 with the RQ 4 Global Hawk a UAV within four years 40 however in January 2012 it was instead decided to extend the U 2 s service life 41 42 43 Critics have pointed out that the RQ 4 s cameras and sensors are less capable and lack all weather operating capability however some of the U 2 s sensors could be installed on the RQ 4 44 In late 2014 Lockheed Martin proposed converting the manned U 2 fleet into UAVs which would substantially bolster its payload capability 45 however the USAF declined to provide funding for such an extensive conversion 46 During the 2010s American defense conglomerate Lockheed Martin promoted its proposal to develop a hypersonic UAV which it referred to the SR 72 in allusion to its function as a spiritual successor to the retired SR 71 Blackbird 47 48 The company has also developed several other reconnaissance UAVs such as the Lockheed Martin RQ 170 Sentinel 49 50 Technologies editMiniature UAVs edit Due to the low cost of miniature UAVs this technology brings aerial reconnaissance into the hands of soldiers on the ground The soldier on the ground can both control the UAV and see its output yielding great benefit over a disconnected approach With small systems being man packable operators are now able to deploy air assets quickly and directly The low cost and ease of operation of these miniature UAVs has enabled forces such as the Libyan Rebels to use miniature UAVs 51 nbsp Aeryon Scout VTOL UAVAeroVironment Wasp III airplane electric propulsion Aeryon Scout Aeryon SkyRanger VTOL Rotorcraft Some UAVs are small enough to carry in a backpack with similar functionality to larger ones EMT Aladin aircraft electric Made in Germany Bramor C4EYE aircraft electric Made in Slovenia Bayraktar Mini UAV aircraft electric Made in Turkey RQ 84Z Areohawk aircraft electric Made in New Zealand Low cost miniature UAVs demand increasingly miniature imaging payloads Developments in miniature electronics have fueled the development of increasingly capable surveillance payloads allowing miniature UAVs to provide high levels of capability in never before seen packages 52 Reconnaissance pods edit Reconnaissance pods can be carried by fighter bomber aircraft Examples include the British Digital Joint Reconnaissance Pod DJRP 53 Chinese KZ900 UK RAPTOR and the US Navy s F 14 Tomcat Tactical Airborne Reconnaissance Pod System TARPS Some aircraft made for non military applications also have reconnaissance pods i e the Qinetiq Mercator 54 See also editAerial photography Aerorozvidka Air observation post Forward air control Imagery intelligence Joe Thompson WW II pilot National Collection of Aerial Photography Surveillance aircraft Spatial reconnaissance United States aerial reconnaissance of the Soviet Union List of United States Air Force reconnaissance aircraftReferences editCitations edit Military Use of Balloons During the Napoleonic Era U S Centennial of Flight Commission Archived from the original on May 28 2010 Retrieved 1 April 2007 Gillispie Charles Coulston Science and Polity in France The Revolutionary and Napoleonic Years pp 372 373 Beadle Jeremy Harrison Ian First Lasts amp Onlys Military p 42 a b Nicholas M Short Sr History of Remote Sensing In the Beginning Launch Vehicles Archived from the original on 30 January 2009 Retrieved 2009 03 13 Podolski Consulting 2009 History of Aerial Photography Archived from the original on 6 March 2009 Retrieved 13 March 2009 Nicholas M Short Sr Remote Sensing Tutorial Overview Archived from the original on 26 February 2009 Retrieved 13 March 2009 photographs by Alfred Nobel s rocket and the Bavarian pigeon fleet The History of Aerial Photography Archived from the original on 6 September 2008 Retrieved 13 March 2009 Cameras in Model Rockets A Short History 8 January 2007 Retrieved 13 March 2009 Mark Wade Maul Camera Rocket Archived from the original on 7 March 2009 Retrieved 13 March 2009 summary and photo Maksel Rebecca The World s First Warplane airspacemag com Retrieved 25 March 2018 U S Centennial of Flight Commission Aviation at the Start of the First World War Archived 9 October 2012 at the Wayback Machine Walter J Boyne ed Air Warfare an International Encyclopedia A L p 66 Note The correct date in the Gregorian calendar is 18 October not 21 as the source claims A Brief History of Aerial Photography Archived from the original on 2008 09 06 Retrieved 2014 01 11 Royal Flying Corps Founded History Today Marshall Cavendish Corporation 2003 How It Works Science and Technology Marshall Cavendish p 33 ISBN 9780761473145 Lieutenant Leonard T E Taplin D F C Southsearepublic org Archived from the original on July 15 2012 Retrieved 24 January 2013 Photography Before Edgerton web mit edu Downing Taylor 2011 Spies in the Sky Little Brown Hardbacks A amp C p 42 ISBN 978 1 4087 0280 2 Cotton Sidney 1969 Aviator Extraordinary The Sidney Cotton Story Chatto amp Windus p 169 ISBN 978 0 7011 1334 6 Early Days Remote Sensing PDF PDF web mst edu Bowman 2005 p 21 Stanley 2010 p 35 Downing Taylor 2011 Spies in the Sky Little Brown Hardbacks A amp C pp 80 81 ISBN 978 1 4087 0280 2 Unlocking Buckinghamshire s Past Archived from the original on 2012 08 16 Retrieved 2014 01 11 a b c Allied Central Interpretation Unit ACIU Archived March 12 2013 at the Wayback Machine a b Operation Crossbow BBC2 broadcast 15 May 2011 Polmar 2001 p 11 FAI Canberra World Records Archived 12 February 2009 at the Wayback Machine fai org Retrieved 18 October 2009 Lewis 1970 p 371 RB 47E USSR Overflights by the 91st SRW Archived 2008 02 27 at the Wayback Machine The Cold War Museum Retrieved 16 August 2019 Natola 2002 pp 179 181 Pedlow and Welzenbach 1992 pp 170 177 Ehrhard Thomas P July 2010 Air Force UAVs The Secret History PDF Defense Technical Information Center DTIC Mitchell Institute for Airpower Studies Archived from the original on May 18 2017 Retrieved 20 July 2015 Grossnick Roy A 1997 Part 10 The Seventies United States Naval Aviation 1910 1995 pdf history navy mil pp 324 325 ISBN 0 945274 34 3 Retrieved 2 November 2016 Donald David Northrop Grumman F 14 Tomcat U S Navy today Warplanes of the Fleet London AIRtime Publishing Inc 2004 ISBN 1 880588 81 1 Gasparre Richard January 25 2008 The U S and Unmanned Flight Part 1 airforce technology com Retrieved 13 March 2009 Fickes Michael October 1 2004 Automated Eye In The Sky GovernmentSecurity com Archived from the original on March 18 2005 Retrieved 13 March 2009 Butler Amy and David A Fulghum USAF not ready to retire the U 2 Archived 8 December 2012 at the Wayback Machine Aviation Week 26 August 2008 Retrieved 10 March 2009 Sherman Jason and Daniel G Dupont DoD cuts Air Force aircraft fleet Archived 24 February 2008 at Wikiwix Military com 11 January 2006 Retrieved 8 March 2009 Majumdar Dave Global Hawk to replace U 2 spy plane in 2015 Air Force Times 10 August 2011 Retrieved 22 August 2011 Shalal Esa Andrea U S Air Force to Kill Global Hawk UAV Aviation Week 24 January 2012 Retrieved 24 January 2012 Majumdar Dave topnews text FRONTPAGE Sources USAF to kill block 30 Global Hawks Defense News 25 January 2012 Retrieved 25 January 2012 Analysts predict A 10 U 2 retirements in FY15 Flightglobal com 7 February 2014 Retrieved 7 December 2015 Sisk Richard Global Hawk trails U 2 despite retirement plans DoDBuzz com 27 February 2014 Retrieved 7 December 2015 Butler Amy Lockheed updates unmanned U 2 concept Aviation Week 24 November 2014 Retrieved 7 December 2015 Drew James U 2 poised to receive radar upgrade but not un manned conversion Flightglobal com 31 July 2015 Retrieved 7 December 2015 Norris Guy 4 November 2013 Skunk Works Reveals SR 71 Successor Plan Aviation Week amp Space Technology Archived from the original on March 30 2015 Bronk Justin 5 November 2013 Speed is the New Stealth The SR 72 Challenges the Future at Mach 6 Royal United Services Institute Retrieved 22 August 2017 Axe David 13 December 2012 7 Secret Ways America s Stealth Armada Stays Off the Radar Wired Archived from the original on 17 December 2012 Retrieved 14 December 2012 Trimble Stephen 10 December 2009 RQ 170 not intended to replace Predators and Reapers FlightGlobal The DEW Line blog Archived from the original on 15 December 2009 Retrieved 11 December 2009 Aeryon Scout Micro UAV Helps Libyan Rebels in March to Tripoli aeryon com Archived from the original on 2011 09 19 Retrieved 2012 04 18 Upgrades Dominate Small UAV Payload Design Activities Archived from the original on 27 September 2016 Retrieved 26 September 2016 Digital Joint Reconnaissance Pod raf mod uk Retrieved 14 September 2020 Twist Jo 2 August 2005 Eternal planes to watch over us BBC News Bibliography edit Bowman Martin de Havilland Mosquito Crowood Aviation series Ramsbury Marlborough Wiltshire UK The Crowood Press 2005 ISBN 1 86126 736 3 Lewis Peter British Racing and Record Breaking Aircraft London Putnam 1970 ISBN 0 370 00067 6 Natola Mark Boeing B 47 Stratojet Schiffer Publishing Ltd 2002 ISBN 0 76431 670 2 Pedlow Gregory W amp Donald E Welzenbach The Central Intelligence Agency and Overhead Reconnaissance The U 2 and Oxcart Programs 1954 1974 Washington DC Central Intelligence Agency 1992 ISBN 0 7881 8326 5 Polmar Norman Spyplane The U 2 History Declassified London Zenith Imprint 2001 ISBN 0 7603 0957 4 Stanley Colonel Roy M II USAF Ret V Weapons Hunt Defeating German Secret Weapons Barnsley South Yorkshire UK Pen amp Sword 2010 ISBN 978 1 84884 259 5 External links edit nbsp Wikimedia Commons has media related to wbr Aerial reconnaissance and wbr Aerial cameras nbsp Wikimedia Commons has media related to wbr Luftbildplanwerk des Deutschen Reiches National Collection of Aerial Photography The official archive of British Government declassified aerial photography Retrieved from https en wikipedia org w index php title Aerial reconnaissance amp oldid 1178579422, wikipedia, wiki, book, books, library,

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