Title :
Experimental networked embedded mini drone - part II. distributed FDI
Author :
Tanwani, A. ; Gentil, S. ; Lesecq, S. ; Thiriet, J.-M.
Author_Institution :
Lab. d´Autom. de Grenoble, UJF, St. Martin d´Hères, France
Abstract :
Embedded systems constitute a category whose safety is critical and where FDI real time constraints are particularly important. Embedded algorithms must be the simplest as possible and computations may be distributed between the embedded system and a more powerful distant computer. This paper proposes a bank of observers to diagnose faults of a small helicopter controlled in closed loop. The studied prototype is a 4 rotors mini-drone equipped with an attitude central for system positioning, made of 3 rate gyros, 3 accelerometers and 3 magnetometers. A dedicated network architecture is proposed.
Keywords :
aircraft control; closed loop systems; control engineering computing; control system synthesis; embedded systems; fault diagnosis; helicopters; observers; position control; 4-rotor mini-drone; accelerometers; closed loop control; distributed FDI; embedded algorithm; embedded system; experimental networked embedded mini drone; fault diagnose; magnetometers; network architecture; observer; powerful distant computer; system positioning; Accelerometers; Magnetometers; Mathematical model; Observers; Quaternions; Rotors; Sensors; Distributed Computer Control System; Drones; Embedded System; Fault Diagnosis; Generalized Observer Scheme Residual Generation; Network Topology;
Conference_Titel :
Control Conference (ECC), 2007 European
Conference_Location :
Kos
Print_ISBN :
978-3-9524173-8-6
