Add to ORKGFirst Riccati equation with matrix variable coefficients, arising in optimal and robust control approach, is considered. An analytical approximation of the solution of nonlinear differential Riccati equation is investigated using the Adomian decomposition method. An application in optimal control is presented. The solution in different order of approximations and different methods of approximation will be compared respect to accuracy. Then the Hamilton-Jacobi-Belman (HJB) equation, obtained in nonlinear optimal approach, is considered and an analytical approximation of the solution of it using the Adomian decomposition method is presented
A method to solve nonlinear optimal control problems is proposed in this work. The method implements...
It is often desired to have control over a process or a physical system, to cause it to behave optim...
AbstractIn this paper, we introduce a new algorithm for applying the Adomian decomposition method to...
It is often desired to have control over a process or a physical system, to cause it to behave optim...
The general matrix Riccati equation is decomposed into product of two factors where the first one is...
AbstractIn this paper, we shall generalize our result [1] on the optimal control of bilinear systems...
This paper presents an inverse optimality method to solve the Hamilton-Jacobi-Bellman equation for a...
Abstract. This paper attempts to present a numerical method for solv-ing optimal control problems. T...
This paper presents a numerical approach to solve the Hamilton-Jacobi-Bellman (HJB) equation, which ...
[[abstract]]A numerical method is presented for solving algebraic Riccati equations, as required in ...
AbstractDifferential Riccati equations play a fundamental role in control theory, for example, optim...
In this paper, a Piecewise Adomian Decomposition Method (PADM) is used to obtain the analytical appr...
In this paper we consider the matrix Riccati differential equation (RDE) that arises from linear-qua...
Optimal control problems are often solved exploiting the solution of the so-called Hamilton-Jacobi-B...
The linear-qaudratic optimal control problem arises in the analysis and design of dynamic linear sys...
A method to solve nonlinear optimal control problems is proposed in this work. The method implements...
It is often desired to have control over a process or a physical system, to cause it to behave optim...
AbstractIn this paper, we introduce a new algorithm for applying the Adomian decomposition method to...
It is often desired to have control over a process or a physical system, to cause it to behave optim...
The general matrix Riccati equation is decomposed into product of two factors where the first one is...
AbstractIn this paper, we shall generalize our result [1] on the optimal control of bilinear systems...
This paper presents an inverse optimality method to solve the Hamilton-Jacobi-Bellman equation for a...
Abstract. This paper attempts to present a numerical method for solv-ing optimal control problems. T...
This paper presents a numerical approach to solve the Hamilton-Jacobi-Bellman (HJB) equation, which ...
[[abstract]]A numerical method is presented for solving algebraic Riccati equations, as required in ...
AbstractDifferential Riccati equations play a fundamental role in control theory, for example, optim...
In this paper, a Piecewise Adomian Decomposition Method (PADM) is used to obtain the analytical appr...
In this paper we consider the matrix Riccati differential equation (RDE) that arises from linear-qua...
Optimal control problems are often solved exploiting the solution of the so-called Hamilton-Jacobi-B...
The linear-qaudratic optimal control problem arises in the analysis and design of dynamic linear sys...
A method to solve nonlinear optimal control problems is proposed in this work. The method implements...
It is often desired to have control over a process or a physical system, to cause it to behave optim...
AbstractIn this paper, we introduce a new algorithm for applying the Adomian decomposition method to...