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Structural Health Monitoring of Transport Aircraft with Fuzzy Logic Modeling

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  • Ray C. Chang
  • C. Edward Lan

Abstract

A structural health monitoring method based on the concept of static aeroelasticity is presented in this paper. This paper focuses on the estimation of these aeroelastic effects on older transport aircraft, in particular the structural components that are most affected, in severe atmospheric turbulence. Because the structural flexibility properties are mostly unknown to aircraft operators, only the trend, not the magnitude, of these effects is estimated. For this purpose, one useful concept in static aeroelastic effects for conventional aircraft structures is that under aeroelastic deformation the aerodynamic center should move aft. This concept is applied in the present paper by using the fuzzy-logic aerodynamic models. A twin-jet transport aircraft in severe atmospheric turbulence involving plunging motion is examined. It is found that the pitching moment derivatives in cruise with moderate to severe turbulence in transonic flight indicate some degree of abnormality in the stabilizer (i.e., the horizontal tail). Therefore, the horizontal tail is the most severely affected structural component of the aircraft probably caused by vibration under the dynamic loads induced by turbulence.

Suggested Citation

  • Ray C. Chang & C. Edward Lan, 2013. "Structural Health Monitoring of Transport Aircraft with Fuzzy Logic Modeling," Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-11, June.
  • Handle: RePEc:hin:jnlmpe:640852
    DOI: 10.1155/2013/640852
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    Cited by:

    1. Zhenglin Zhang & Yangyang Sun & Qinghua Zhang & Jianli Duan & Lei Gao, 2019. "Applications of optical frequency-domain reflectometry technology in strain-deformed configuration conversion of structural surface deformed configuration measurement," International Journal of Distributed Sensor Networks, , vol. 15(11), pages 15501477198, November.

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