Delays are often present in embedded and networked control loops and represent one of the main sources of performance limitations. In this paper, we propose two aperiodic control strategies to optimize closed-loop performance in the presence of stochastic delays: (i) a self-triggered strategy, in which the deadline to drop data is decided on-line based on the current state; (ii) an event-driven strategy, whereby the control input is updated immediately after the delayed data becomes available, leading in general to faster but time-varying control loops. These schemes are designed and analyzed using a standard LQG framework, which allows for assessing and comparing closed-loop performance. We establish that our self-triggered strategy always...
In event-triggered control (ETC) systems, the measured state or output of the plant is sent to the c...
In this paper we address the problem of self-triggered control of nonlinear systems under actuator d...
The standard approach in computer-controlled systems is to sample and control periodically. In certa...
Delays are often present in embedded and networked control loops and represent one of the main sourc...
This work presents a novel control strategy for systems with actuation delays with known stochastic ...
Event-triggered control (ETC) and self-triggered control (STC) are sample-and-hold control paradigms...
In this paper, aperiodic control of linear discrete-time systems subject to bounded additive disturb...
The standard approach in computer-controlled systems is to sample and control periodically. In certa...
The standard approach in feedback control systems is to sample and control periodically. For some ap...
Abstract: Research in networked control systems raised the importance of understanding what are the ...
This paper studies the optimal output-feedback control of a linear time-invariant system where a sto...
Self-triggered control is a recently proposed paradigm that abandons the more traditional periodic t...
A fundamental challenge in networked control systems is reducing the amount of communications of eac...
Event-triggered control is a promising alternative to time-triggered control, especially for severel...
In event-triggered control (ETC) systems, the measured state or output of the plant is sent to the c...
In this paper we address the problem of self-triggered control of nonlinear systems under actuator d...
The standard approach in computer-controlled systems is to sample and control periodically. In certa...
Delays are often present in embedded and networked control loops and represent one of the main sourc...
This work presents a novel control strategy for systems with actuation delays with known stochastic ...
Event-triggered control (ETC) and self-triggered control (STC) are sample-and-hold control paradigms...
In this paper, aperiodic control of linear discrete-time systems subject to bounded additive disturb...
The standard approach in computer-controlled systems is to sample and control periodically. In certa...
The standard approach in feedback control systems is to sample and control periodically. For some ap...
Abstract: Research in networked control systems raised the importance of understanding what are the ...
This paper studies the optimal output-feedback control of a linear time-invariant system where a sto...
Self-triggered control is a recently proposed paradigm that abandons the more traditional periodic t...
A fundamental challenge in networked control systems is reducing the amount of communications of eac...
Event-triggered control is a promising alternative to time-triggered control, especially for severel...
In event-triggered control (ETC) systems, the measured state or output of the plant is sent to the c...
In this paper we address the problem of self-triggered control of nonlinear systems under actuator d...
The standard approach in computer-controlled systems is to sample and control periodically. In certa...