This thesis focuses on a Model Based Design approach to the dynamic modelling and control design of a multi-robot solution based on a collab- oration scheme between a UAV and USV. The purpose of the system is to provide a suitable platform to autonomously perform limnology related surveys. The dynamic models of both platforms are derived from a Newton- Euler formalism and implemented through block oriented modelling us- ing the Simscape Multibody toolset within Simulink. The implementation of both the simulation architecture and the control architecture are de- scribed and explained. This control architecture is based on PID feedback loops that are used for achieving control of the UAV and USV dynamics. Finally, the built simulator is used to asses the performance and relia- bility of the designed controllers and the dynamic modelling approaches selected ; Ingeniería en Tecnologías Industriales
Modelling and control of a UAV-USV collaboration scheme for fluvial operations
2017-03-08
Hochschulschrift
Elektronische Ressource
Englisch
DDC: | 629 |
Online Contents | 1997
Online Contents | 1998
Fluvial - Europe. Le transport fluvial s'ouvre à la concurrence
Online Contents | 2000