Free Access
Mechanics & Industry
Volume 18, Number 2, 2017
Article Number 215
Number of page(s) 11
Published online 17 February 2017
  1. J.S. Bendat, Principles and Applications of Random Noise Theory, John Wiley & Sons, 1958
  2. L. Wang, Y.-L. Lee, R. Burger, K. Li, Multiple Sinusoidal Vibration Test Development for Engine Mounted Components, Journal of failure analysis and prevention, DOI:10.1007/s11668-013-9661-x
  3. B. Cornelis, B. Dendas, A. Carrella, Qualification testing of racecar equipment subject to engine-induced vibrations: how to derive a test profile using a mission synthesis procedure, Proceedings of ISMA, 2014
  4. DEF STAN 00-35, Part 5-Induced Mechanical Environments, Section 6 on deployment on land vehicles, 1999
  5. AOP-34, Allied Ordnance Publication, Vibration Test Method and Severities for Munitions Carried in Tracked Vehicles, 1st edition, 1999
  6. STANAG 4242, NATO Standardisation Agreement 4242, Vibration Tests for Munitions Carried in Tracked Vehicles
  7. M.B. Dumelin and F. Kohler, Acceleration Measurements on Special Tracks and on Road/Cross Country – A Comparison, IES Technical Meeting Proceedings, 1990.
  8. Andrew Halfpenny, T.C. Walton, New Techniques for Vibration Qualification of Vibrating Equipment on Aircraft, Proceedings Aircraft Airworthiness & Sustainment 2010, Autin, Texas
  9. STANAG 4370 Edition 1, AECTP 240- Mechanical conditions, Leaflet 247 on deployment on rotary Wind Aircraft, 2009
  10. MSC/FATIGUE V8 User Manual, MSC Corporation, Los Angeles, CA, 1998
  11. B. Colin, Tracklayers: a complex vibration environment, IES Technical Meeting Proceedings, 1990
  12. D.E Cartwright, M.S Longuet-Higgins, The distribution of the maxima of a random function, Proceeding of the Royal Society 237, 1956
  13. A.G Davenport, Note on the distribution of the largest value of a random function with application to gust loading, J. Inst. Civ Eng. 28 (1964) 187–196
  14. F. de Coulon, Théorie et traitement des signaux, Dunod, 1984, Chap. 7
  15. B. Colin, Spectres des réponses extrêmes d’un environnement sinus plus bruit, Mécaniques Matériaux Electricité n°446, Octobre-Novembre, 1992
  16. S.O Rice, Mathematical Analysis of Random Noise, Bell System Technical J. 23 (1944) 282–332 [CrossRef] [MathSciNet]
  17. A. Angot, Compléments de mathématiques à l’usage des ingénieurs de l’électrotechnique et des télécommunications, Masson, 1982
  18. S.O Rice, Statistical properties of Random Noise Currents, Bell System Technical J. 24 (1945) 46–108 [CrossRef] [MathSciNet]
  19. L.C. Andrews, Special Functions of Mathematics for Engineers, 2nd edition, New York, McGraw-Hill, 1992
  20. Szilard Andras, Arpad Baricz, and Yin Sun, Generalized Marcum Q-function and orthogonal polynomial approach,
  21. A.H Nuttall, Some Integrals Involving the Q-Function, NUSC Technical Report 4297, 1972
  22. E.J Gumbel, Statistics of Extremes, Columbia University Press, 1958
  23. B. Colin, Conception sécurisée des structures soumises aux valeurs extrêmes de processus stochastiques stationnaires, Bell Mécanique & Industries 10 (2009) 131 [CrossRef] [EDP Sciences]
  24. H. Vold and J. Leuridan, Order Tracking at Extreme Slew Rates, Using Kalman Tracking Filters, SAE Paper Number 931288
  25. B. Colin, Outil de personnalisation en environnement combiné sinus plus bruit, intégré aux essais en environnement mécanique, Juin 1991, Symposium ASTE 91

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.