On the History of Early Aircraft Automatic Stability Control Systems

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

The article proposes a classification and description of the principles of operation of automatic stability control systems of aircrafts of the world in the period prior to the outbreak of WWI, and clarifies priorities in this field. The aircrafts employed the systems based on pendulum sensors, aerodynamic sensors, automatic thrust vector changes, and gyroscopic sensors. It is noted that, because of the outbreak of the First World War, the experiments associated with creating automatic stability systems had to be stopped and the focus was shifted to building mass combat vehicles. The next stage in the development of these systems began only in the 1920s.

Full Text

Restricted Access

About the authors

Yuri V. Kuzmin

Vavilov Institute for the History of Science and Technology of the Russian Academy of Sciences

Author for correspondence.
Email: ykuzmin@rambler.ru
Russian Federation, 14, Baltiyskaya St., Moscow, 125315

References

  1. Aeroplano Duray – H. Matthys (1909), Rivista tecnica di aeronautica e Bollettino della Società aeronautica italiana, year 6, no. 4, pp. 141–142.
  2. Arnold, A. J., and Forbes, V. F. (1911) Naturally-Stable Machine, Flight, November 11, vol. 3, no. 45, pp. 991–992.
  3. At the Aerodromes (1910), Aeronautics, no. 7, pp. 18–22.
  4. Barnes, C. H. (1976) Handley Page Aircraft since 1907. London: Putnam.
  5. Bénichou, M. (2017) L’équilibre de la balance, Le Fana de l’aviation, no. 576, p. 56.
  6. Busy Brooklands (1913), Flight, no. 34, p. 941.
  7. Concours dʼaviation de Douai (1909), LʼAerophile, July 1, year 17, no. 13, pp. 303–304.
  8. Goddard, R. H. (1907) The Use of the Gyroscope in the Balancing and Steering of Aeroplanes, Scientific American Supplement, vol. 63, no. 1643, p. 26330.
  9. Goodall, M. H., and Tagg, A. E. (2001) British Aircraft before the Great War. Atglen, PA: Schiffer Publishing Ltd.
  10. Hallion, R. P. (2019) The Wright Flyers 1899–1916. The Kites, Gliders, and Aircraft that Launched the “Air Age”. Oxford: Osprey Publishing.
  11. Kuzmin, Iu. V. (2024) Bibliographicheskii spravochnik po samoletam XX veka. 2-e izd. [Bibliographic Reference Book: 20th Century Airplanes. 2nd ed.]. Moskva: IIET RAN.
  12. Lucas-Girardville (1911). A propose du gyroscope. Reponse au commadant Thouveny, La Revue aerienne, no. 61, pp. 221–222.
  13. Obrubov, A. G. (1994) Sdvig vetra [Wind Shear], in: Svishchev, G. P. (ed.) Aviatsiia. Entsiklopediia [Aviation. An Encyclopedia]. Moskva: BSE; TsAGI, 1994, p. 510.
  14. Opdycke, L. E. (1999) French Aeroplanes before the Great War. Atglen, PA: Schiffer Publishing Ltd.
  15. Ramel, J. G. (1909) Dispositif automatique de commande des plans stabilisateurs et des gouvernails de profondeur pour machines volantes, La Revue aerienne, no. 15, p. 325.
  16. Samolet “Sochi – Antalʼia” sovershil grubuiu posadku v rezulʼtate sdviga vetra [The Sochi – Antalya Airplane Made a Rough Landing as a Result of Wind Shear] (2024), www.interfax.ru/russia/994232.
  17. Sobolev, D. A. (1988) Rozhdenie samoliota [Birth of Airplane]. Moskva: Mashinostroenie.
  18. Southard Automatic Stability (1911), Aeronautics, no. 2, p. 63.
  19. Sur les aerodromes (1911), L’Aero, no. 250, pp. 3–4.
  20. Thouveny (1911) Sur un mode dʼinstallation du gyroscope stabilisateur, La Revue aerienne, no. 59, pp. 145–149.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2. Fig. 1. Astagnier monoplane. Image from a French postcard of 1914

Download (172KB)
Indexing metadata
3. Fig. 2. La Baignoire, the world's first aircraft with a gyroscopic automatic stability system (rear view)

Download (178KB)
Indexing metadata

Copyright (c) 2025 Russian Academy of Sciences