This paper presents a nonlinear robust control design procedure for a micro air vehicle, which uses the singular value (µ) and µ-synthesis technique. The optimal robust control law that combines parametric and lumped uncertainties of the micro UAV (unmanned aerial vehicle) which are realized by serial connection of the Kestrel autopilot and the Gumstix microprocessor. Thus, the robust control feedback loops, which handle the uncertainty of aerodynamics derivatives, are used to ensure the robust stability of the UAV local dynamics in longitudinal and lateral control directions. Key words: robust optimal control, mu-synthesis, uncertainty design, micro aerial vehicle, autopilo
Some level of uncertainty is unavoidable in acquiring the mass, geometry parameters and stability de...
This article proposes a new practical robust attitude state feedback controller of a low-cost hexaro...
Estimations of the flight vehicles aerodynamic coefficients through the theoretical, numerical, wind...
This paper addresses the design and experimental validation of a linear robust static output feedbac...
This paper proposes a practical robust attitude controller for uncertain hexarotor micro aerial vehi...
Some level of uncertainty is unavoidable in acquiring the mass, geometry parameters and stability de...
This paper proposes a robust optimal attitude control design for multiple-input, multiple-output (MI...
This paper addresses the stability and tracking control problem of miniature unmanned multirotor aer...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
Abstract: The paper addresses the design of an autopilot for small scale helicopters to let the vert...
This paper presents a robust fixed order H-2 controller design using Strengthened discrete optimal p...
This article proposes a modal approach to the synthesis of robust systems for optimal stabilization ...
This paper presents a robust fixed order H2controller design using strengthened discrete optimal pro...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
Unmanned aerial vehicles are famous for their wide range of applications. In D3 (Dirty-Dull-Dangerou...
Some level of uncertainty is unavoidable in acquiring the mass, geometry parameters and stability de...
This article proposes a new practical robust attitude state feedback controller of a low-cost hexaro...
Estimations of the flight vehicles aerodynamic coefficients through the theoretical, numerical, wind...
This paper addresses the design and experimental validation of a linear robust static output feedbac...
This paper proposes a practical robust attitude controller for uncertain hexarotor micro aerial vehi...
Some level of uncertainty is unavoidable in acquiring the mass, geometry parameters and stability de...
This paper proposes a robust optimal attitude control design for multiple-input, multiple-output (MI...
This paper addresses the stability and tracking control problem of miniature unmanned multirotor aer...
International audienceIn this paper, we show in detail a synthesis procedure of the control scheme r...
Abstract: The paper addresses the design of an autopilot for small scale helicopters to let the vert...
This paper presents a robust fixed order H-2 controller design using Strengthened discrete optimal p...
This article proposes a modal approach to the synthesis of robust systems for optimal stabilization ...
This paper presents a robust fixed order H2controller design using strengthened discrete optimal pro...
This paper presents the dynamic behavior of a coaxial micro-helicopter, under Quantitative Feedback ...
Unmanned aerial vehicles are famous for their wide range of applications. In D3 (Dirty-Dull-Dangerou...
Some level of uncertainty is unavoidable in acquiring the mass, geometry parameters and stability de...
This article proposes a new practical robust attitude state feedback controller of a low-cost hexaro...
Estimations of the flight vehicles aerodynamic coefficients through the theoretical, numerical, wind...