Complementary use of BG and EMR formalisms for multiphysics systems analysis and control
TypeCommunications avec actes
In this paper, a complex multiphysics system is modeled using two different energy-based graphical techniques: Bond Graph and Energetic Macroscopic Representation. These formalisms can be used together to analyze, model and control a system. The BG is used to support physical, lumped-parameter modeling and analysis processes, and then EMR is used to facilitate definition of a control structure through inversion-based methodology. This complementarity between both of these tools is set out through a helicopter flight control subsystem.
Fichier(s) constituant cette publication
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Visualiser des documents liés par titre, auteur, créateur et sujet.
TOD, Georges; MALBURET, François; GOMAND, Julien; BARRE, Pierre-Jean (2013)A contribution is proposed for the modeling of mechanical systems using multibond graphs. When modeling a physical system, it may be needed to catch the dynamic behavior contribution of the joints between bodies of the ...
CHIKHAOUI, Zeineb; GOMAND, Julien; MALBURET, François; PAVEL, Marilena; BARRE, Pierre-Jean (American Helicopter Society (AHS) International, 2013)The paper presents an energetic method of helicopters dynamics analysis to study the air resonance (AR) phenomena. First, a brief state of art of AR phenomena is presented and a simple energetic explanation is given. ...
Understanding pilot biodynamical feedthrough coupling in helicopter adverse roll axis instability via lateral cyclic feedback control TOD, Georges; PAVEL, Marilena; MALBURET, François; GOMAND, Julien; BARRE, Pierre-Jean (Elsevier, 2016)The paper reassesses the mechanism of biodynamical feedthrough coupling to helicopter body motion in lateral-roll helicopter tasks. An analytical bio-aeroelastic pilot–vehicle model is first developed and tested for various ...
Modelling and Control of a Complex Multi-physic System Application to Helicopter flight axis control MARTIN, Mikael; GOMAND, Julien; MALBURET, François; BARRE, Pierre-Jean (IEEE, 2012)A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energetic based graphical tool. Element of the system are mainly composed of passive technologies and their number tends to ...
MARTIN, Mikael; GOMAND, Julien; MALBURET, François; BARRE, Pierre-Jean (IEEE, 2012)A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energetic based graphical tool: the Energetic Macroscopic Representation. Elements of the system are mainly composed of passive ...