LQG control with minimum directed information

Tanaka, T.; Mohajerin Esfahani, P. Mohajerin; Mitter, S.K.

doi:10.1109/TAC.2017.2709618

LQG control with minimum directed information

Semidefinite programming approach

Journal article (2018)

Authors

T. Tanaka The University of Texas at Austin

P. Mohajerin Mohajerin Esfahani Team Tamas Keviczky - Mechanical, Maritime and Materials Engineering

S.K. Mitter Massachusetts Institute of Technology

Research Group

Team Bart De Schutter (Mechanical, Maritime and Materials Engineering) (TU Delft)

DOI: https://doi.org/10.1109/TAC.2017.2709618

Kalman filtering Control over communications LMIs Stochastic optimal control Communication networks

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Published Date

2018

Language

English

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Faculty

Mechanical, Maritime and Materials Engineering

Department

Delft Center for Systems and Control

Research Group

Team Bart De Schutter

Abstract

We consider a discrete-time Linear-QuadraticGaussian (LQG) control problem in which Massey’s directed information from the observed output of the plant to the control input is minimized while required control performance is attainable.
This problem arises in several different contexts, including joint encoder and controller design for data-rate minimization in networked control systems. We show that the optimal control law is a Linear-Gaussian randomized policy. We also identify the state space realization of the optimal policy, which can be synthesized by an efficient algorithm based on semidefinite programming.
Our structural result indicates that the filter-controller separation principle from the LQG control theory, and the sensor-filter separation principle from the zero-delay rate-distortion theory for Gauss-Markov sources hold simultaneously in the considered problem. A connection to the data-rate theorem for mean-square stability by Nair & Evans is also established.

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