This paper presents a complete trajectory tracking controller design for an Unmanned Air Vehicle using Linear Parameter Varying design methods. The longitudinal and lateral controllers are designed using an inner loop outer loop structure with the inner loop LPV controller designed using μ-synthesis. The inner-loop is then approximated with a reference model and the outer loop is designed using loop-shaping techniques. Full scale nonlinear simulations are used to test the efficiency of the designed controller and of the proposed design approach
This paper presents the design, implementation and simulator verification of inner loop control law...
This paper presents a novel control algorithm for tracking of nonlinear dynamic systems. The trackin...
Linear parameter varying (LPV) control has received a lot of attention in the last two decades for a...
This paper presents a complete trajectory tracking controller design for an Unmanned Air Vehicle usi...
Abstract—In this paper, two strategies for the design of controllers based on a simplified LPV model...
This paper develops a trajectory tracking control design algorithm to be applied in unmanned aerial ...
This paper presents controllers design procedure for dynamic trajectory tracking of a highly automat...
Abstract—The need for autonomous Unmanned Aerial Vehicles (UAVs) is very interesting nowadays. Auton...
The article of record as published may be found at http://dx.doi.org/10.2514/2.4229A new methodology...
Small quadcopters have demonstrated to be the perfect testing bench for addressing the autonomous fl...
This work presents a solution for the position-heading control problem of a small quadrotor. The mai...
AbstractThe focus of this paper is on the autopilot control loop design of fixed wing Micro Aerial V...
The research and application of Unmanned Aerial Vehicles (UAVs) has been a hot topic recently. A UAV...
The dynamic response characteristics of modern unmanned aerial vehicles (UAVs) are highly nonlinear ...
This paper presents a novel configuration for guidance and tracking control laws for unmanned air ve...
This paper presents the design, implementation and simulator verification of inner loop control law...
This paper presents a novel control algorithm for tracking of nonlinear dynamic systems. The trackin...
Linear parameter varying (LPV) control has received a lot of attention in the last two decades for a...
This paper presents a complete trajectory tracking controller design for an Unmanned Air Vehicle usi...
Abstract—In this paper, two strategies for the design of controllers based on a simplified LPV model...
This paper develops a trajectory tracking control design algorithm to be applied in unmanned aerial ...
This paper presents controllers design procedure for dynamic trajectory tracking of a highly automat...
Abstract—The need for autonomous Unmanned Aerial Vehicles (UAVs) is very interesting nowadays. Auton...
The article of record as published may be found at http://dx.doi.org/10.2514/2.4229A new methodology...
Small quadcopters have demonstrated to be the perfect testing bench for addressing the autonomous fl...
This work presents a solution for the position-heading control problem of a small quadrotor. The mai...
AbstractThe focus of this paper is on the autopilot control loop design of fixed wing Micro Aerial V...
The research and application of Unmanned Aerial Vehicles (UAVs) has been a hot topic recently. A UAV...
The dynamic response characteristics of modern unmanned aerial vehicles (UAVs) are highly nonlinear ...
This paper presents a novel configuration for guidance and tracking control laws for unmanned air ve...
This paper presents the design, implementation and simulator verification of inner loop control law...
This paper presents a novel control algorithm for tracking of nonlinear dynamic systems. The trackin...
Linear parameter varying (LPV) control has received a lot of attention in the last two decades for a...