British unmanned aerial vehicles of World War I

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Soon after its re-purposing from the Army Balloon Factory to the Royal Aircraft Factory in 1912, designers at this Farnborough base turned their thoughts to flying an unmanned aircraft. During the First World War this pioneering work resulted in trials of remotely controlled aircraft and boats for the Royal Flying Corps and the Royal Navy[1] By the end of the war in 1918 Britain had successfully flown and controlled a drone aircraft and a number of fast unmanned motor boats operating in close flotilla formation had been individually controlled by radio from operators flying in "mother" aircraft. This work then continued in the inter war years.

The Factory's 1914 design[]

There is a Royal Aircraft Factory engineering drawing dated October 1914 of an unmanned powered monoplane 9 ft 3 in (2.82 m) long with a 10 ft (3.0 m) wingspan.[2] This was developed as a possible defence to counter the threat of aerial bombing from German dirigible airships. This new potential weapon was called "Aerial Target" (AT), a misnomer to fool the Germans into thinking it was a drone plane to test anti-aircraft capabilities.[3]

Ruston Proctor[]

Henry Folland, who had been at Royal Aircraft Factory since 1912, designed an AT powered by an ABC Gnat engine which was built by Ruston Proctor of Lincoln in 1916/1917.[4]

Sopwith[]

With Harry Hawker, Sopwith at Kingston upon Thames built a single-bay biplane AT with a wingspan of about 14 ft (4.3 m) which was to carry a 50 lb (23 kg) explosive charge. Stability came from pronounced dihedral and there was a four-wheel undercarriage. The aircraft was damaged during erection at Feltham and was never tested. The design was later reworked into the Sopwith Sparrow.[5][6]

1917 Aerial Target[]

The history of UAV target drones started when the Royal Flying Corps developed their prototype remote controlled aircraft and gave it the cover name "Aerial Target" (AT). All the 1917 "Aerial Target" aircraft from the various designers used the radio control system devised by Archibald Low at the RFC's Experimental Works in Feltham.[7][8] One of Geoffrey de Havilland's "AT" aircraft powered by a Gnat engine that was launched from a pneumatically powered ramp in the RFC trials at Upavon on 21 March 1917 became the world's first powered drone aircraft to fly under radio control. The engine driven actuator applied progressively increasing deflection of the selected control (elevators or rudder) up to its limit until the selection lever was released by the ground operator. With no control demanded the control surface was returned to its trim position by springs.[9] The mechanism was later exhibited by the IWM as "The original model receiving set installed in the radio controlled monoplane used in the trial flight."[10] along with the Selective Transmitter which the operator on the ground used to send control the control signals.[11]

Low's system's encoded the command transmissions as a countermeasure to prevent enemy intervention. These codes could be changed daily.[12]

By July 1917 six Aerial Targets designed by the Factory had been built and were tested at Northholt. Attempts were made to launch the first three from rails laid on the ground but they all crashed in various ways during the launching process and these trials were terminated.[13] Nevertheless, the Aerial Target was later acknowledged as a viable weapon, stating "aircraft carrying high explosive charges are capable of being controlled by wireless."[14]

The "AT" project was transferred to Biggin Hill, to what became the Wireless Experimental Establishment. By 1922 this work had all transferred to the R.A.E., back at Farnborough where it had all begun in 1914.[15]

1918 aircraft-controlled unmanned boats[]

In 1917 the priority for Low's control system changed; the new imperative being to counter the submarine threat. So the AT work was documented and transferred to Royal Flying Corps radio unit at Biggin Hill. Low was transferred into the Royal Navy to adapt the AT system to the airborne control of Royal Navy Distance Control Boats (DCB), a variant of the Coastal Motor Boat to be filled with an explosive charge. The Feltham Works were still under Low's command and this is where the redevelopment and production of equipment was carried out, clock-driven impulse senders for DCBs being ordered on 13 March 1918. The port/starboard demand from the controller's sender units in the aircraft caused a gyroscope on the boat to change the direction of its axis by "precession" to the "new" required heading. Any "difference" between the boats current heading and the required heading (i.e. the gyroscopes alignment) started an electric motor driving a worm gear in the appropriate direction to turn the rudder. This reduced any "difference" as the boat responded and acquired the new required heading. Thus any difference caused the boat to manoeuvre to keep it on the gyroscope's "required" heading, whether that difference occurred due to wave, wind or tide deflecting the boat or to control signal demands from the "mother" aircraft precessing the gyroscope.[16]

Conversions of the 40-ft CMBs Number 3, 9 and 13 were three of the five DCBs built.[17]

The extensive trials were successful and the DCB weapon was acknowledged to be "capable of control up to the moment of hitting."[14] Admiral Edward Stafford Fitzherbert (Director of Mines and Torpedoes) stated on 18 March 1918 in a letter concerning Archibald Low's achievements during his Navy tour of duty that "Captain Low was gazetted as Lieut. Commander as from October 2nd 1917 recommended by Sir David Henderson, Brig. General Caddell, Brig. General Pitcher and Major, Sir Henry Norman, M.P., P.C.", ... "He has assigned about 14 complete Patent to Services", ... "He has voluntarily lent his entire laboratory and staff to Admiralty etc. where manufacturing is now carried out." and "Three distinct inventions have now been accepted into service after being tested, namely.. 1. Complete sending control gear for D.C.B. 2. Electrical Gun Timing Apparatus 3. Gun Silencer audiometer Measuring Device"

The Royal Flying Corps 1917 Guided Rocket[]

Archibald Low stated "in 1917 the Experimental Works designed an electrically steered rocket... Rocket experiments were conducted under my own patents with the help of Cdr. Brock"[18] Like Low, Brock was an experimental officer. Brock commanded the Royal Navy Experimental Station at Stratford. Pertinent to these rocket experiments, Brock was also a Director of the C.T. Brock & Co. fireworks manufacturers. The patent "Improvements in Rockets" was raised in July 1918 referring by then to the Royal Air Force. It was not published until February 1923 for security reasons. Firing and guidance controls could be either wire or wireless. The propulsion and guidance rocket eflux emerged from the deflecting cowl at the nose. The 1950s IWM exhibition label states "Later in 1917, an electrically steered rocket was designed…. with the designed purpose of pursuing a hostile airman." A model of this dirigible rocket was included in this exhibition.[19] The model was accompanied by a note: "Exhibit that is part of Professor AM Low's exhibits. Model of the wireless controlled dirigible rocket missile designed to pursue a hostile airman."

Radio guidance and the Feltham Unit[]

During World War One, work started on radio guided weapons at various establishments, such as the experiments of Capt. Cyril Percy Ryan at Hawkcraig Experimental Station (H.M.S. Tarlair).[20] However, as control by the Munitions Inventions Department over military research was introduced, a centre for the Royal Flying Corps radio guided weapons was established. This was the secret Experimental Works in Feltham. The focus of their work was radio guided systems but the unit also assisted with other tasks.[21] They were involved in testing the Pomeroy bullet and George Constantinescu's synchronization gear. They provided ‘distractions’ for the Zeebrugge raid[22][23][24] and its Commanding Officer Archibald Low travelled to France and into neutral Spain during the war to debunk reports of ‘fantastic’ weapons.[25] Low had at least 30 specialists under his command at Feltham supported by their contractors and suppliers. They had motor transport assets and the military and police security. Their balloon facility was used to conducted radio reception experiments and they tested their equipment using aircraft with trailing aerials. Low was a qualified RFC Observer. His officers included his second in command Henry Jeffrey Poole, his radio engineer George William Mahoney Whitton, the talented inventor Ernest Windsor Bowen who had transferred with Low to the RNVR and the carburation specialist Louis Mantell.[26] 2nd Lt. Bertie Charles Adamson joined the unit in January 1917.

Low was commended for this work by a number of senior officers including Sir David Henderson (the wartime commander of the RFC) and Admiral Edward Stafford Fitzherbert (Director of Mines and Torpedoes). Sir Henry Norman, 1st Baronet (Chairman of the War Office Committee on Wireless Telegraphy and at this time the Munitions Inventions Department's permanent attaché to the French Ministry of Inventions.) wrote to Low in March 1918, saying "I know of no man who has more extensive and more profound scientific knowledge, combined with a greater gift on imaginative invention than yourself."[27]

Their work had started in 1915 the commercial motor garage business owned by Henry Poole. This was in Chiswick. During 1916 the development showed such promise that the RFC established their secret Experimental Works in premises commandeered from the Davis Paraffin Carburettor Company and the Duval Composition Company which were situated in the old Ivory Works in Feltham. Later these Experimental Works were moved to Archibald Low's own premises at 86 High Street, Feltham where all the Navy work was carried out in 1918.[28]

The Adjutant-General investigation[]

Details of the Feltham Experimental Works have survived in the records of a legal claim against Archibald Low. On 5 December 1917 he was accused of plagiarism and abuse of office by a civilian inventor Clifton West.[29] By the new year of 1918 the case had been passed by Auckland Geddes (a member of the government) and adjutant general Sir Nevil Macready to captain John Morgan. The records of Morgan's investigation and Low's defence against these accusations include many particulars of the Feltham Unit, its layout and facilities. Low subsequently successfully claimed for the wartime use of his 'works', adding to the retention of information on its use and scope.[citation needed]

On 26 January 1918 colonel Ernest Swinton provided his friend Morgan with an assessment of Clifton West as "...a clever man and very ingenious, but tends towards the type of inventions "crank". He is also the most perfect mug in the world, as I have told him and is like a bit of toasted cheese to all the rats and crooks within a hundred miles : they smell him coming and get out their Bowie knives." The case against Archibald Low was not pursued.[30]

Clifton's plagiarism case involved his Land Torpedo, a rolling cable drum device to snag and destroy barbed wire defences, probably similar[citation needed] to that patented under instruction from his superiors on behalf of the RFC by Archibald Low.[31] By 1 July 1918 Clifton West had moved to Bournemouth and the Authorities, having lost track of him, asked Low for a description of Clifton.[citation needed]

Post War assessment[]

The Final Report of the Post-War Questions Committee, dated 27 March 1920, stated: "We have heard evidence that aircraft carrying high explosive charges are capable of being controlled by wireless as are the Distant Control Boats, but we do not consider that they will be a real menace to Capital Ships."[14] The Questions Committee said on the subject of the DCBs that "it is difficult, if not impossible, for an enemy to interfere with the control by wireless jambing, since each boat works on a different wave length and the discovery of the wave length is a delicate operation" and "these weapons are already capable of being handled in numbers: two of them can be controlled by one aircraft, three of them have been manoeuvred close to one another simultaneously without mutual interference, and probably as many as eight can be handled in a group if the groups are not within about four miles of one another." The committee concluded the DCB weapon "is in a different category from all others in that it is capable of control up to the moment of hitting, and this fact alone justifies close attention to development" into ultimate form as "into a shallow or surface-running torpedo of great size". While they thought that "In its present state of development...that it is not a great menace to the Capital Ship", they said it merited "uninterrupted research both in the perfection of the weapon itself and in the preparation of counter measures".[14]

The RFC links to subsequent UAV developments[]

In 1921 the R.A.E. resumed unmanned aircraft development, setting up the Radio Controlled Aircraft Committee. Initially they used their ‘1917 Type Aerial Target’ aircraft refitted with a more powerful 45 h.p. Armstrong Siddeley Ounce engine.[32][33][34] In 1925 they developed the `Larynx’. By January 1933 a Fairey Queen IIIF drone target survived unscathed through a major RN gunnery trial.[35] Following further demonstrations using the Queen IIIF ('Faerie Queen') aircraft, the world's first fleet of drones was developed and these entered service in 1935. They were the de Havilland DH.82 Queen Bees. Their control system came out of the same First World War / R.A.E. stable as the original de Havilland 1917 Aerial Target[36] and they were also launched from a pneumatically powered ramp.[37] Over 400 of these were in service before WWII. They were used to test anti-aircraft defences. A 1939 article on the Queen Bee concluded "Twenty years is a long time, but the men who have designed and developed the radio-controlled target aircraft have made full use of that time. Furthermore, the experiments of those twenty years cannot be imitated in a matter of weeks. Not only is Great Britain many years in advance of every other country in this sphere, but she is also likely to remain ahead."[38][page needed]

The next major development were the first US fleets of target drones during the Second World War. Four veterans of the RFC (and its successor, the Royal Air Force) link the 1917 Aerial Target to these subsequent US drone developments. Archibald Low's commanding officer on the RFC Aerial Target project was Duncan Pitcher. In 1921 he was Robert Loraine's best man.[39] Loraine had a great deal in common with Reginald Denny who founded the Radioplane Company in California. Denny and Loraine were both British actors who had successful careers in the USA. They had been in a West End production together in 1902 in London.[40] They were both veterans of the RFC, they both visited close relative living on the boundaries of Richmond Park in London and they were both flying and making films in Hollywood in the 1930s when Denny became interested in radio controlled aircraft. Denny's Radioplane, the 1940s company that made the first mass-produced drones for the US Army and Navy was eventually acquired by Northrop Grumman who make the RQ-4 Global Hawk drone.

The Royal Navy also continued to develop their remote radio control assets. The pre-dreadnought battleship HMS Agamemnon was converted into a remote control target ship in 1920.

Imperial War Museum exhibition[]

On 29 June 1955 Low and Lord Brabazon presented a model of the AT and the various artefacts from the Feltham Unit to the Imperial War Museum for their planned exhibition. These included the control system that flew in March 1917.[41][42]

Surviving artefacts and their photographs[]

The Royal Flying Corps' Aerial Target was the world's first drone unmanned aircraft (UAV) to fly under control from the ground. A photograph of this 1917 22 foot (6.7 metre) wingspan Aerial Target aircraft exists.[43] Parts of it were saved by Low and these still exist as well as contemporary photographs although they are not on public display.[44] One of the 1918 Distance Control Boats CMB9/DCB1 has been saved and carefully restored.[17]

Recent archival research[]

Until 2016 the RFC Aerial Target project was deemed by most sources to have failed and been terminated.[45][page needed] The on-line images of the Imperial War Museum Feltham artefacts were not presented as a collection. Prior to 2019 no known source had published details of the Royal Flying Corps secret patents or demonstrated that they matched and described the items in this IWM collection.[46] The Feltham Works re-application of their system to control the Royal Navy DCBs had not been established. Details of the mysterious Feltham Works were in the National Archives but not published.[47] References to the post war influence of the Feltham Works success as it passed via Biggin Hill to the Royal Aircraft Establishment have now been researched.[48][49][page needed] The suspected influence of Pitcher and Loraine on Denny involvement with UAVs was recognised in 2019.[50] The Imperial War Museum now state... "The Aerial Target... became the first drone to fly under control when it was tested in March 1917. The pilot (in control of the flight from the ground) on this occasion was the future world speed record holder Henry Segrave".[51]

Historical significance[]

During the First World War the Aerial Targets and subsequent DCBs were developed as ripostes to the Central Powers aerial bombing and naval blockade of Britain. The ATs involved the substantial use of scarce resources[citation needed] including the industrial efforts of at least three of the countries major aircraft companies along with the novel engine development of the "Gnat" engine by ABC Motors, the control system development by the Feltham Works and the integration and trials facilities of other RFC bases. The project was sustained over the worst years of the war when continued Munitions Inventions Department approval was required for such projects. The unit also provided radio controls for floating mines. [1] The Feltham Works were one of the precursors of the R.A.E. who inherited the Feltham patents and AT hardware. They resumed development of Remote Piloted Vehicles through the interwar years, leading to the fleet of Queen Bee RPVs. In 1976 Low was inducted into the International Space Hall of Fame and has been called the "Father of Radio Guidance Systems".

References[]

  1. ^ Low (1952) p 436
  2. ^ Mills (2019) p20
  3. ^ Low (1952)
  4. ^ Lewis 1978, p. 101.
  5. ^ King, H.F. (1981). Sopwith Aircraft 1912–1920 (1st ed.). London: Putnam. pp. 233–234. ISBN 0-370-30050-5.
  6. ^ Mills, 2019, p197-198
  7. ^ Bloom (1958) p80
  8. ^ Everett, H. R. 2015. Unmanned Systems of World Wars I and II. Cambridge: MIT Press Page 270 onwards
  9. ^ IWM Q 68003
  10. ^ IWM Q 68006
  11. ^ IWM Q 68010
  12. ^ Mills (2019) Page 189 "In order further to safeguard against outside interference I may have a number of inertia wheels of variable speed, only one being correctly adjusted to pick up the timed signals and actuate the mechanism." "and could be varied every day."
  13. ^ Allen (2015) p31 - 34
  14. ^ Jump up to: a b c d "ADM 1/8586/70: Final Report of the Post-War Questions Committee". 27 March 1920. pp. 8–9. Retrieved 23 March 2021 – via H.M.S. Hood Association.
  15. ^ Allen (2015) page 36
  16. ^ Patent Specification 244,302 (Application date 2 April 1918, publication delayed for security Publication date 14 January 1926)
  17. ^ Jump up to: a b Mills, Steve (5 October 2019). "The Hornets of Sea: The World War One Coastal Motor Boats of the Royal Navy". History Hit. Retrieved 23 March 2021.
  18. ^ Flight 3 October 1952, A. M. Low, "The First Guided Missile" p. 436.
  19. ^ IWM Q 68009
  20. ^ Mills (2019) p251
  21. ^ Low (1952) p437 "Our works often had queer things sent to us for test, including ‘land torpedoes,’ but nothing deflected our main aim."
  22. ^ Low (1952) p436 "For that Mole attack I had prepared a radio-fired bomb device by which any one of a number of floating buoys could be selected and exploded by radio."}}
  23. ^ Bloom (1958) p 82 "the preparation of bombs, which although successful, only just operated in time for Commander Brock to see them in the last hours of his life at Zeebrugge."
  24. ^ IWM - Royal Flying Corps Feltham Transmitter for the selective firing of floating mines for use in the Zeebrugge raid. https://www.iwm.org.uk/collections/item/object/30115404
  25. ^ Mills (2019) p224
  26. ^ "Louis Mantell - Graces Guide".
  27. ^ Mills (2019) p215
  28. ^ Mills (2019) p165
  29. ^ The Anti-Vaccinator Kids, Jane Roberts, 4 October 2020
  30. ^ Mills (2019) chapter 17 page 237
  31. ^ Patent 192,093 Application date 31 August 1917 Publication date 22 February 1923 "Improvements in Apparatus for Destroying Wire or like Defensive or other Obstacles."
  32. ^ Allen (2015) p34
  33. ^ "The Evolution of the Cruise Missile" - Dr Kenneth P. Werrell - Air University Press - 1985 - page 18
  34. ^ Flight (1955) "The 'Factory' aeroplanes"
  35. ^ Film: "Trials Of The Fairey Queen At Gibraltar, 1933 - IWM Catalogue number MTE 139
  36. ^ Mills (2019) p3 "The descendants of the consortium working on the 1917 AT project produced the fleet of Queen Bees. These were the Royal Aircraft Establishment, the de Havilland Aircraft Company and the British air and sea forces."
  37. ^ "Photo: Winston Churchill and the Secretary of State for War waiting to see the launch of a de Havilland Queen Bee radio-controlled target drone, 6 June 1941", IWM Collections, 1941, ref H 10307
  38. ^ "With A Queen Bee Flight" Flight, 24 August 1939
  39. ^ Liggera, Lanayre D. (2013). The Life of Robert Loraine: the stage, the sky, and George Bernard Shaw. Newark Lanham, Md.: University of Delaware Press. p. 172. ISBN 9781611494587.
  40. ^ Mills (2019) p219
  41. ^ IWM EN1/1/LAB/009 IWM Exhibition label stating "This exhibit, lent by Professor A.M. Low, includes the original control which made the first radio-guided flight under selective control on 21st. March 1917."
  42. ^ Flight 1 July 1955.[page needed] Report of the ceremony on 29th June 1955 at the IWM when Lord Brabazon presented "some historical components of the first flying bomb on behalf of the inventor Professor A. M. Low. Included were the actual controls of the flying bomb, invented during the early part of the 1914/18 war and flown in 1917"
  43. ^ Q 67991 IWM Collections
  44. ^ IWM catalogue. For example the Aerial Target Model can be found at Q 68008 Other images are Q 67984 to Q 67991, Q 68002 to Q 68012, Q 68036 to Q 68040, Q 66711, Q 69509, Q 69929, Q 69930 and H 10307.
  45. ^ Weird War One: Intriguing Items and Fascinating Feats from the First World War IWM 2015 by Peter Taylor
  46. ^ Mills 2019 p176 "These patents are such a close match to the exhibits in the IWM that they must refer directly to these equipments."
  47. ^ Mills, 2019, p5
  48. ^ Flight (1955) "The 'Factory' aeroplanes" This article lists for 1921 use of ‘1917 Type Aerial Target’ aircraft
  49. ^ Flight 24 August 1939 With A Queen Bee Flight by Miles Henslow “Much has been written in the lay Press about Queen Bees, and as a result it is quite well known by the general public that these strange craft have been in use by the R.A.F. for a number of years. So well has their secret been guarded, however, that apart from the name little more is known about them to-day than when the first experimental machine was created, more than twenty years ago.”
  50. ^ Mills 2019 p221
  51. ^ "A Brief History of Drones". Imperial War Museums. Retrieved 16 May 2021.
  • Mills, Steve (2019). The Dawn of the Drone: from the back room boys of the Royal Flying Corps. Havertown: Casemate. ISBN 9781612007908.
  • Bloom, Ursula (1958). He Lit The Lamp - A Biography Of Professor A. M. Low. Burke.
  • Allen, Dennis W. (2015). Unmanned Aircraft. Farnborough Air Sciences Trust - FAST Monograph No 003.
  • Low, A. M. (3 October 1952). "The First Guided Missile". Flight: 436 onwards. Cite journal requires |journal= (help)
  • Lewis, Peter. The British Fighter Since 1912. London:Putnam, 1979. ISBN 0-370-10049-2.
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