001070101
100 $a20130226 y50
101 $afre
2001 $aCONTRIBUTION A LA COMMANDE ET A
L’IDENTIFICATION DE ROBOTS A ARCHITECTURES
PARALLELES$bressource électronique
210 $aUniversité de Sétif 1 - Ferhat Abbas : Département d'Electronique$cUniversité de Sétif 1 - Ferhat Abbas$d2012
215 $a115 P$dCD
328 1$bDoctorat$cElectronique$eDépartement d'Electronique , Université de Sétif 1 - Ferhat Abbas$d2012
330 $aIn this thesis, we have addressed two aspects in relation with mechatronic systems:
Identification and control. Indeed, the MLP-NN (MultiLayer Perceptron Neural
Network) is used in several approaches proposed in this thesis. Note that the realized
work is purely experimental. The two mechatronic systems considered are the C5
links parallel robot and the wearable robot of exoskeleton type available in the LISSI
laboratory. In the first time, we have achieved an identification neural black box of
the inverse dynamics of C5 parallel robot. To do this, three identification schemes
were tested and compared. On the control part, we have proposed an adaptive
control hybrid moment / position of C5 parallel robot directly in the task space. The
task space dynamic model of the robot in contact with its environment, seen as a
black box, is estimated by a MLP-NN. An adaptation algorithm of the neural
parameters resulting from a closed-loop stability analysis is proposed. Another
approach of control is proposed to derive the exoskeleton. In this design approach, of
the adaptive control, the dynamic model is taken as a gray box. Only its structure is
known. The unknown functions of the dynamic model are approximated online. The
neural parameters adaptation laws are obtained via stability study in Lyapunov sense
of the system in closed loop. The proposed approach is tested on a healthy person in
flexion / extension of the knee
610 $aIdentification, adaptive control, neural networks, parallel robot,
exoskeleton, stability
700 $aDAACHI, Mohamed El Hossine
701 $aArray
801 0$aDZ$bCERIST PNST
901$ac
990 $aTH957