Dynamics modeling, simulation, and control have been studied extensively for many applications in robotics, aeronautics, underwater vehicles, and aerospace vehicles (spacecraft, launchers, re-entry vehicles). In that context, this thesis is motivated from two research directions; namely, space launchers guidance and control (G&C) for preliminary design studies and spacecraft nonlinear and agile attitude control systems. The research performed in this thesis focuses on two aspects: 1) attitudemotion and control, which is considered to be one of the classical problems in nonlinear and multivariable control systems; 2) incremental nonlinear control, which is a combined model– and sensor–based control approach and has shown promising result...
A nonlinear robust control design approach is presented in this paper for a prototype reusable launc...
An analysis of attitude controller concepts, including four attitude flight controllers, for the re-...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
In order to meet requirements in terms of robustness, stability, and performance for future generati...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
This paper presents an agile and robust spacecraft attitude tracking controller using the recently r...
Incremental nonlinear dynamic inversion is a sensor-based control approach that promises to provide ...
This book consists of two main parts main goal of the first part is to collect and develop new atti...
This paper presents an agile and robust spacecraft attitude tracking controller using the recently r...
This dissertation addresses Thrust Vector Control (TVC) design techniques for small launch vehicles ...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
The goal of this research is to design global attitude control systems for launch vehicles in exoatm...
In the context of the initiative Formation for Atmospheric Science and Technology demonstration (FAS...
A quadrotor, a UAV equipped with four rotors, has an advantage of its maneuver, and has been used fo...
In this paper, we present a case study on spacecraft attitude control. The plant (spacecraft attitud...
A nonlinear robust control design approach is presented in this paper for a prototype reusable launc...
An analysis of attitude controller concepts, including four attitude flight controllers, for the re-...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
In order to meet requirements in terms of robustness, stability, and performance for future generati...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
This paper presents an agile and robust spacecraft attitude tracking controller using the recently r...
Incremental nonlinear dynamic inversion is a sensor-based control approach that promises to provide ...
This book consists of two main parts main goal of the first part is to collect and develop new atti...
This paper presents an agile and robust spacecraft attitude tracking controller using the recently r...
This dissertation addresses Thrust Vector Control (TVC) design techniques for small launch vehicles ...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
The goal of this research is to design global attitude control systems for launch vehicles in exoatm...
In the context of the initiative Formation for Atmospheric Science and Technology demonstration (FAS...
A quadrotor, a UAV equipped with four rotors, has an advantage of its maneuver, and has been used fo...
In this paper, we present a case study on spacecraft attitude control. The plant (spacecraft attitud...
A nonlinear robust control design approach is presented in this paper for a prototype reusable launc...
An analysis of attitude controller concepts, including four attitude flight controllers, for the re-...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...