Title :
New real-time structural health monitoring microsystem for aircraft propeller blades
Author :
Escriba, Christophe ; Fourniols, J. ; Lastapis, M. ; Boizard, Jean-Louis ; Auriol, Gulllaume ; Andrieu, S.
Author_Institution :
LAAS, Univ. de Toulouse, Toulouse, France
Abstract :
This presents work done on the project “Blade Parameters Recording Microsystem” funded by the French research program FUI. It resulted in a fully operational recorder that can be embedded on a plane. This system allows blade monitoring to be conducted using computing algorithms. Using a top-down modelling method, this recorder can be adapted to any kind of blade. Herein, recorder was devised for a Transall plane blade. This device was used to record data in order to subsequently compute a real-time blade monitoring algorithm. The algorithm takes several blade parameters into account. The top-down modelling easily allows the algorithm parameters to be adapted to various blades.
Keywords :
aircraft; blades; condition monitoring; micromechanical devices; propellers; structural engineering; FUI; French research program; Transall plane blade; aircraft propeller blade; blade parameter recording microsystem; computing algorithm; real-time structural health monitoring microsystem; top-down modelling method; Adaptation models; Airplanes; Blades; Computational modeling; Real-time systems;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
DOI :
10.1109/MAES.2012.6163611
