English

Separated design of encoder and controller for networked linear quadratic optimal control

Optimization and Control 2016-02-22 v4 Information Theory Systems and Control math.IT

Abstract

For a networked control system, we consider the problem of encoder and controller design. We study a discrete-time linear plant with a finite horizon performance cost, comprising of a quadratic function of the states and controls, and an additive communication cost. We study separation in design of the encoder and controller, along with related closed-loop properties such as the dual effect and certainty equivalence. We consider three basic formats for encoder outputs: quantized samples, real-valued samples at event-triggered times, and real-valued samples over additive noise channels. If the controller and encoder are dynamic, then we show that the performance cost is minimized by a separated design: the controls are updated at each time instant as per a certainty equivalence law, and the encoder is chosen to minimize an aggregate quadratic distortion of the estimation error. This separation is shown to hold even though a dual effect is present in the closed-loop system. We also show that this separated design need not be optimal when the controller or encoder are to be chosen from within restricted classes.

Keywords

Cite

@article{arxiv.1405.0135,
  title  = {Separated design of encoder and controller for networked linear quadratic optimal control},
  author = {Maben Rabi and Chithrupa Ramesh and Karl Henrik Johansson},
  journal= {arXiv preprint arXiv:1405.0135},
  year   = {2016}
}

Comments

To appear in the SIAM journal on Control and Optimization

R2 v1 2026-06-22T04:03:53.955Z