A robust feedback integrated with iterative learning control (FILC) scheme for batch processes with uncertain perturbations and interval time-varying delay is developed. The batch process is modeled as a two-dimensional (2D) Rosser system with a delay varying in a range. The design of FILC scheme is transformed into a robust control problem of uncertain 2D system. New delay-range-dependent stability criteria and stabilization conditions are derived in terms of linear matrix inequalities (LMIs), which depend on not only the difference between the upper and lower delay bounds but also the upper delay bound of the interval time-varying delay. Parameterized characterizations for stabilizing the controller are given in terms of the feasibility s...
On the basis of the two-dimensional linear quadratic (2DLQ) optimal control developed in the first p...
A batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...
This paper develops a fault-tolerant iterative learning control law for a~class of~linear time-delay...
This paper proposes the design of the integrated output feedback and iterative learning control (ILC...
Based on robust feedback incorporated with iterative learning control scheme, this paper proposes a ...
A robust iterative learning control (ILC) scheme for batch processes with uncertain perturbations an...
Based on a two-dimensional (2D) system description of a batch process in industry, a robust closed-l...
Based on a two-dimensional (2D) Fornasini-Marchsini system description of a batch process in industr...
To improve stability and convergence, feedback control is often incorporated with iterative learning...
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 ...
Convergence is an important issue in the design and application of iterative learning control (ILC) ...
Based on the proportional-integral (PI) closed-loop control widely used in industrial engineering pr...
A robust Iterative Learning Control (ILC) design that uses state feedback and output injection for l...
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 batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...
This paper develops a fault-tolerant iterative learning control law for a~class of~linear time-delay...
This paper proposes the design of the integrated output feedback and iterative learning control (ILC...
Based on robust feedback incorporated with iterative learning control scheme, this paper proposes a ...
A robust iterative learning control (ILC) scheme for batch processes with uncertain perturbations an...
Based on a two-dimensional (2D) system description of a batch process in industry, a robust closed-l...
Based on a two-dimensional (2D) Fornasini-Marchsini system description of a batch process in industr...
To improve stability and convergence, feedback control is often incorporated with iterative learning...
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 ...
Convergence is an important issue in the design and application of iterative learning control (ILC) ...
Based on the proportional-integral (PI) closed-loop control widely used in industrial engineering pr...
A robust Iterative Learning Control (ILC) design that uses state feedback and output injection for l...
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 batch process can be treated as a 2-dimentional (2D) system with a time dimension within each batc...
This paper develops a fault-tolerant iterative learning control law for a~class of~linear time-delay...