Add to ORKGThis paper investigates feedback stabilization problems for discrete-time linear time-invariant systems over a digital, wireless communication network. The insertion of such network inevitably leads to random network delay, packet dropout, and limited data rates. The packet dropout process of the channel is modeled as an independent and identically distributed process. For this case, we examine the networked feedback control problem, present a sufficient condition for stabilization, and derive a lower bound on the data rate, above which there exists a quantization, coding, and control scheme to stabilize the unstable plant in the mean square sense. An illustrative example is given to demonstrate the effectiveness of the proposed method
This paper investigates quantized feedback stabilization problems for discretetime linear time-invar...
The focus of this work is on dynamical systems that are controlled over a communication network, als...
In this paper, we extend results from packet-based control theory, and present sufficient conditions...
This paper investigates feedback stabilization problems for discrete-time linear time-invariant syst...
This paper investigates networked control problems for linear control systems, where the sensors and...
This paper investigates networked control problems for linear control systems, where the sensors and...
This paper addresses the mean square stabilization problem for discrete-time networked control syste...
This paper addresses the mean square stabilization problem for discrete-time networked control syste...
This paper addresses the state feedback stabilization problem for linear timeinvariant systems, wher...
The problem of data packet dropout and transmission delays induced by communication channel in netwo...
This paper addresses the state feedback stabilization problem for linear timeinvariant systems, wher...
The problem of data packet dropout and transmission delays induced by communication channel in netwo...
This paper addresses the output feedback stabilization problem for discrete-time networked control s...
Digital Object Identifier: 10.1109/MED.2007.4433773In this paper we present sufficient conditions on...
Digital Object Identifier: 10.1109/ACC.2007.4282830In this paper, we extend results from packet-base...
This paper investigates quantized feedback stabilization problems for discretetime linear time-invar...
The focus of this work is on dynamical systems that are controlled over a communication network, als...
In this paper, we extend results from packet-based control theory, and present sufficient conditions...
This paper investigates feedback stabilization problems for discrete-time linear time-invariant syst...
This paper investigates networked control problems for linear control systems, where the sensors and...
This paper investigates networked control problems for linear control systems, where the sensors and...
This paper addresses the mean square stabilization problem for discrete-time networked control syste...
This paper addresses the mean square stabilization problem for discrete-time networked control syste...
This paper addresses the state feedback stabilization problem for linear timeinvariant systems, wher...
The problem of data packet dropout and transmission delays induced by communication channel in netwo...
This paper addresses the state feedback stabilization problem for linear timeinvariant systems, wher...
The problem of data packet dropout and transmission delays induced by communication channel in netwo...
This paper addresses the output feedback stabilization problem for discrete-time networked control s...
Digital Object Identifier: 10.1109/MED.2007.4433773In this paper we present sufficient conditions on...
Digital Object Identifier: 10.1109/ACC.2007.4282830In this paper, we extend results from packet-base...
This paper investigates quantized feedback stabilization problems for discretetime linear time-invar...
The focus of this work is on dynamical systems that are controlled over a communication network, als...
In this paper, we extend results from packet-based control theory, and present sufficient conditions...