This paper proposes the design of the integrated output feedback and iterative learning control (ILC) for batch processes with uncertain perturbations and interval time-varying delays, where the main idea is to transform the design into a robust delay-range-dependent Ho, control of a 2D system described by a state-space model with varying delays. A sufficient criterion for delay-dependent Ho noise attenuation is derived through linear matrix inequality (LMI) by introducing a comprehensive 2D difference Lyapunov-Krasovskii functional candidate and adding a differential inequality to the difference in the Lyapunov function for the 2D system. Based on the criterion obtained, the delay-range-dependent output feedback controller combined with IL...
A delay-range-dependent robust constrained model predictive control is proposed for discrete-time sy...
In this paper, a set-point related indirect-type iterative learning control (ILC) design is proposed...
A batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...
Based on a two-dimensional (2D) system description of a batch process in industry, a robust closed-l...
A robust feedback integrated with iterative learning control (FILC) scheme for batch processes with ...
Based on robust feedback incorporated with iterative learning control scheme, this paper proposes a ...
Based on a two-dimensional (2D) Fornasini-Marchsini system description of a batch process in industr...
A robust iterative learning control (ILC) scheme for batch processes with uncertain perturbations an...
Based on the Internal model control (IMC) structure, an iterative learning control (ILC) scheme is p...
An iterative learning reliable control (ILRC) scheme is developed in this paper for batch processes ...
Based on the proportional-integral (PI) closed-loop control widely used in industrial engineering pr...
To improve stability and convergence, feedback control is often incorporated with iterative learning...
This paper proposes a delay-range dependent method to solve a two-dimensional (2D) stabilization and...
This paper develops an iterative learning reliable control (ILRC) scheme for batch processes with un...
On the basis of the two-dimensional linear quadratic (2DLQ) optimal control developed in the first p...
A delay-range-dependent robust constrained model predictive control is proposed for discrete-time sy...
In this paper, a set-point related indirect-type iterative learning control (ILC) design is proposed...
A batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...
Based on a two-dimensional (2D) system description of a batch process in industry, a robust closed-l...
A robust feedback integrated with iterative learning control (FILC) scheme for batch processes with ...
Based on robust feedback incorporated with iterative learning control scheme, this paper proposes a ...
Based on a two-dimensional (2D) Fornasini-Marchsini system description of a batch process in industr...
A robust iterative learning control (ILC) scheme for batch processes with uncertain perturbations an...
Based on the Internal model control (IMC) structure, an iterative learning control (ILC) scheme is p...
An iterative learning reliable control (ILRC) scheme is developed in this paper for batch processes ...
Based on the proportional-integral (PI) closed-loop control widely used in industrial engineering pr...
To improve stability and convergence, feedback control is often incorporated with iterative learning...
This paper proposes a delay-range dependent method to solve a two-dimensional (2D) stabilization and...
This paper develops an iterative learning reliable control (ILRC) scheme for batch processes with un...
On the basis of the two-dimensional linear quadratic (2DLQ) optimal control developed in the first p...
A delay-range-dependent robust constrained model predictive control is proposed for discrete-time sy...
In this paper, a set-point related indirect-type iterative learning control (ILC) design is proposed...
A batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...