Add to ORKGThis paper studies the model predictive control (MPC) of the networked control systems (NCSs) where arbitrary bounded deterministic network-induced delays and packet losses may occur in both sensor to controller and controller to actuator links. A new augmented model, which is specially suitable to the on-line refreshed control law, is proposed, based on which an approach of networked MPC is proposed by extending the previous one for NCS with only packet losses. It is shown that closed-loop stability is guaranteed by the proposed approach, satisfying the input and state constraints. A numerical example is given to illustrate the effectiveness of the proposed MPC
Networked Control Systems (NCSs) affected with packet dropouts and scheduling are considered. The un...
In this paper, the robust state feedback stabilization of uncertain discrete-time constrained nonlin...
Networked control systems are feedback systems where plant and controller are connected through loss...
This paper studies the model predictive control (MPC) of the networked control systems (NCSs) where ...
The current paper investigates the influence of packet losses in network control systems (NCS’s) usi...
We study a Networked Control System architecture which uses a communication network in the controlle...
This paper presents a model predictive control formulation for Networked Control Systems subject to ...
Networked control systems (NCS) provide many advantages for idustrial development. For larger scale ...
Data packet dropout is a special kind of time delay problem. In this paper, predictive controllers f...
Abstract — For networked systems, the control law is typically subject to network flaws such as dela...
This study is concerned with the robust predictive control problem for a class of uncertain networke...
Abstract: Networked control systems (NCS) provide many advantages for idustrial development. For lar...
In this work, we consider the control of discrete-time nonlinear systems over unreliable packet-base...
The model predictive control for constrained discrete time linear system under network environment i...
This paper deals with the problem of robust model predictive control (RMPC) for a class of linear ti...
Networked Control Systems (NCSs) affected with packet dropouts and scheduling are considered. The un...
In this paper, the robust state feedback stabilization of uncertain discrete-time constrained nonlin...
Networked control systems are feedback systems where plant and controller are connected through loss...
This paper studies the model predictive control (MPC) of the networked control systems (NCSs) where ...
The current paper investigates the influence of packet losses in network control systems (NCS’s) usi...
We study a Networked Control System architecture which uses a communication network in the controlle...
This paper presents a model predictive control formulation for Networked Control Systems subject to ...
Networked control systems (NCS) provide many advantages for idustrial development. For larger scale ...
Data packet dropout is a special kind of time delay problem. In this paper, predictive controllers f...
Abstract — For networked systems, the control law is typically subject to network flaws such as dela...
This study is concerned with the robust predictive control problem for a class of uncertain networke...
Abstract: Networked control systems (NCS) provide many advantages for idustrial development. For lar...
In this work, we consider the control of discrete-time nonlinear systems over unreliable packet-base...
The model predictive control for constrained discrete time linear system under network environment i...
This paper deals with the problem of robust model predictive control (RMPC) for a class of linear ti...
Networked Control Systems (NCSs) affected with packet dropouts and scheduling are considered. The un...
In this paper, the robust state feedback stabilization of uncertain discrete-time constrained nonlin...
Networked control systems are feedback systems where plant and controller are connected through loss...