This paper proposes a finite-time horizon suboptimal control strategy based on state-dependent Riccati equation (SDRE) to control of F16 multirole aircraft. Flight stabilizer control of super maneuverable aircraft is modelled and simulated. For aircraft modelling purpose a full 6 DOF model is considered and described by nonlinear state-space approach. Also a stable state-dependent parametrization (SDP) necessary for solution of the SDRE control problem is proposed. Solution of the SDRE control problem with adequate defined weighting matrices in performance index shows possibility of fast and optimal aircraft control in finite-time. The method in this form can be used for stabilization of aircraft flight and aerodynamics
In many practical control problems the dynamics of the plant to be controlled are nonlinear. However...
Rapid development of nonlinear control theory for application to challenging and complex problems is...
In this work, a fully coupled six degree-of-freedom (DoF) nonlinear suboptimal control of a variable...
In the area of nonlinear control systems, recently the easy-to-implement state-dependent Riccati equ...
The feasibility of a nonlinear state-dependent Riccati equation (SDRE) control design for relative p...
The article describes a method for constructing a nonlinear finite-horizon tracking control for the ...
A study was conducted to demonstrate path planning using a novel finite horizon suboptimal controlle...
A dual loop nonlinear State Dependent Riccati Equation (SDRE) control method is developed for the fl...
This paper presents the design of the LQR (Linear Quadratic Regulator) and SDRE (State-Dependent Ric...
Abstract — This paper presents a state-dependent Riccati equation (SDRE) flight control approach and...
The Dynamic Inversion embedded SDRE control law combines dynamic inversion and state dependent ricca...
A method for solving finite-horizon optimal control of nonlinear systems has been developed in this ...
State Dependent Algebraic Riccati Equation (SDRE) technique is rapidly emerging as a design method, ...
The objective of the thesis is to introduce a relatively general nonlinear controller/estimator synt...
This paper proposes the application of a nonlinear control technique for coupled orbital and attitud...
In many practical control problems the dynamics of the plant to be controlled are nonlinear. However...
Rapid development of nonlinear control theory for application to challenging and complex problems is...
In this work, a fully coupled six degree-of-freedom (DoF) nonlinear suboptimal control of a variable...
In the area of nonlinear control systems, recently the easy-to-implement state-dependent Riccati equ...
The feasibility of a nonlinear state-dependent Riccati equation (SDRE) control design for relative p...
The article describes a method for constructing a nonlinear finite-horizon tracking control for the ...
A study was conducted to demonstrate path planning using a novel finite horizon suboptimal controlle...
A dual loop nonlinear State Dependent Riccati Equation (SDRE) control method is developed for the fl...
This paper presents the design of the LQR (Linear Quadratic Regulator) and SDRE (State-Dependent Ric...
Abstract — This paper presents a state-dependent Riccati equation (SDRE) flight control approach and...
The Dynamic Inversion embedded SDRE control law combines dynamic inversion and state dependent ricca...
A method for solving finite-horizon optimal control of nonlinear systems has been developed in this ...
State Dependent Algebraic Riccati Equation (SDRE) technique is rapidly emerging as a design method, ...
The objective of the thesis is to introduce a relatively general nonlinear controller/estimator synt...
This paper proposes the application of a nonlinear control technique for coupled orbital and attitud...
In many practical control problems the dynamics of the plant to be controlled are nonlinear. However...
Rapid development of nonlinear control theory for application to challenging and complex problems is...
In this work, a fully coupled six degree-of-freedom (DoF) nonlinear suboptimal control of a variable...