Perez Gonzalez, José Alvaro
Publication Timeline
.
Most widely held works by
José Alvaro Perez Gonzalez
Linear dynamics of flexible multibody systems A system-based approach by
Jawhar Chebbi(
)
1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide
1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide
Commande robuste structurée : application au co-design mécanique / contrôle d'attitude d'un satellite flexible by
Jose Alvaro Perez Gonzalez(
)
1 edition published in 2016 in English and held by 1 WorldCat member library worldwide
In this PhD thesis, the integrated control/structure design of a large flexible spacecraft isaddressed using structured H1 synthesis. The problem is endeavored by developing a modeling technique forflexible multibody systems, called the Two Input Two Output Port (TITOP) model. This general frameworkallows the assembly of a flexible multibody system in chain-like or star-like structure, using finite elementmodels as input data. Additionally, the TITOP modeling technique allows the consideration of parametricvariations inside the system, a necessary characteristic in order to perform integrated control/structure design. In contrast to another widely used method, the assumed modes method, the TITOP modelling technique is robust against changes in the boundary conditions which link the flexible bodies. Furthermore, the TITOP modeling technique can be used as an accurate approximation even when kinematic nonlinearities can be large. The TITOP modeling technique is extended to the modeling of piezoelectric actuators and sensors for the control of flexible structures and revolute joints. Different control strategies, either for controlling rigid body and flexible body motion, are tested with the developed models for obtaining the best controller's architecture in terms of perturbation rejection and vibration damping. The implementation of the integrated control/structure design in the structured H1 scheme is developed considering the different system's specifications, such as system's bandwidth or modes damping, in the form of H1 weighting functions. The integrated attitude control/structure design of a flexiblesatellite is performed using all the developed techniques and the optimization of the control law and severalstructural parameters is achieved
1 edition published in 2016 in English and held by 1 WorldCat member library worldwide
In this PhD thesis, the integrated control/structure design of a large flexible spacecraft isaddressed using structured H1 synthesis. The problem is endeavored by developing a modeling technique forflexible multibody systems, called the Two Input Two Output Port (TITOP) model. This general frameworkallows the assembly of a flexible multibody system in chain-like or star-like structure, using finite elementmodels as input data. Additionally, the TITOP modeling technique allows the consideration of parametricvariations inside the system, a necessary characteristic in order to perform integrated control/structure design. In contrast to another widely used method, the assumed modes method, the TITOP modelling technique is robust against changes in the boundary conditions which link the flexible bodies. Furthermore, the TITOP modeling technique can be used as an accurate approximation even when kinematic nonlinearities can be large. The TITOP modeling technique is extended to the modeling of piezoelectric actuators and sensors for the control of flexible structures and revolute joints. Different control strategies, either for controlling rigid body and flexible body motion, are tested with the developed models for obtaining the best controller's architecture in terms of perturbation rejection and vibration damping. The implementation of the integrated control/structure design in the structured H1 scheme is developed considering the different system's specifications, such as system's bandwidth or modes damping, in the form of H1 weighting functions. The integrated attitude control/structure design of a flexiblesatellite is performed using all the developed techniques and the optimization of the control law and severalstructural parameters is achieved
Audience Level
| 0 |
 |
1 | ||
| General | Special | |||
Related Identities
- Alazard, Daniel Other Thesis advisor
- Chebbi, Jawhar Author
- Dubanchet, Vincent Other
- SpringerLink (Online service) Other
- Institut supérieur de l'aéronautique et de l'espace (Toulouse / 2007-....). Degree grantor
- École doctorale Systèmes (Toulouse) Other
- Equipe d'accueil doctoral Commande des systèmes et dynamique du vol (Toulouse, Haute-Garonne) Other
- Loquen, Thomas (1981-....). Thesis advisor
- Cazaurang, Franck (1965-....). Other
- Le Gorrec, Yann Other
Languages