We consider a discrete-time linear quadratic Gaussian networked control setting where the (full information) observer and controller are separated by a fixed-rate noiseless channel. The minimal rate required to stabilize such a system has been well studied. However, for a given fixed rate, how to quantize the states so as to optimize performance is an open question of great theoretical and practical significance. We concentrate on minimizing the control cost for first-order scalar systems. To that end, we use the Lloyd-Max algorithm and leverage properties of logarithmically-concave functions and sequential Bayesian filtering to construct the optimal quantizer that greedily minimizes the cost at every time instant. By connecting the globall...
We consider the problem of minimizing the variance in the output of a plant that is driven by a Gaus...
The paper deals with the state feedback quadratic mean square stabilization problem for multiple-inp...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
We consider a discrete-time linear quadratic Gaussian networked control setting where the (full info...
Consider a control problem with a communication channel connecting the observer of a linear stochast...
Consider a distributed control problem with a communication channel connecting the observer of a lin...
This paper investigates the feedback stabilization problem for networked control systems (NCSs) with...
With the rapid advances in information processing, communication and sensing technologies, networked...
To achieve satisfactory overall performance, optimal rate allocation in a networked control system w...
We consider a discrete-time linear quadratic Gaussian networked control setting where the (full info...
International audienceThis paper addresses the asymptotic tracking problem subjected to linear quadr...
We propose a linear control and communication scheme for the purposes of stabilization and disturban...
In this article, a tutorial on optimal quantizer design in networked control systems is presented. T...
Abstract — Optimal rate allocation in a networked control sys-tem with highly limited communication ...
The stabilization of unstable dynamical systems using rate-limited feedback links is investigated. I...
We consider the problem of minimizing the variance in the output of a plant that is driven by a Gaus...
The paper deals with the state feedback quadratic mean square stabilization problem for multiple-inp...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
We consider a discrete-time linear quadratic Gaussian networked control setting where the (full info...
Consider a control problem with a communication channel connecting the observer of a linear stochast...
Consider a distributed control problem with a communication channel connecting the observer of a lin...
This paper investigates the feedback stabilization problem for networked control systems (NCSs) with...
With the rapid advances in information processing, communication and sensing technologies, networked...
To achieve satisfactory overall performance, optimal rate allocation in a networked control system w...
We consider a discrete-time linear quadratic Gaussian networked control setting where the (full info...
International audienceThis paper addresses the asymptotic tracking problem subjected to linear quadr...
We propose a linear control and communication scheme for the purposes of stabilization and disturban...
In this article, a tutorial on optimal quantizer design in networked control systems is presented. T...
Abstract — Optimal rate allocation in a networked control sys-tem with highly limited communication ...
The stabilization of unstable dynamical systems using rate-limited feedback links is investigated. I...
We consider the problem of minimizing the variance in the output of a plant that is driven by a Gaus...
The paper deals with the state feedback quadratic mean square stabilization problem for multiple-inp...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...