Title :
Signal-to-Noise Ratio Fundamental Limitations in Continuous-Time Linear Output Feedback Control
Author :
Rojas, Alejandro J.
Author_Institution :
ARC Centre of Excellence for Complex Dynamic Syst. & Control, Univ. of Newcastle, Newcastle, NSW, Australia
Abstract :
In the present technical note we study the fundamental limitation on stability that arise when an additive coloured Gaussian noise (ACGN) channel is explicitly considered over either the control or measurement paths of a linear time invariant (LTI) feedback loop. By considering a linear setting we can naturally express the fundamental limitation as a lower bound on the channel signal-to-noise ratio (SNR) required for stabilisability. We start by first obtaining a closed-form expression for the squared L 2 norm of a partial fraction expansion with repeated poles in the Laplace domain. We then use the squared L 2 norm result to obtain the closed-form expression for the infimal SNR required for stabilisability. The proposed closed-form includes the case of repeated unstable plant poles and non minimum phase (NMP) zeros.
Keywords :
AWGN channels; continuous time systems; feedback; filtering theory; poles and zeros; stability; LTI filter; Laplace domain; additive coloured Gaussian noise channel; continuous-time linear output feedback control; linear time invariant feedback loop; nonminimum phase zeros; repeated poles; repeated unstable plant poles; signal-to-noise ratio fundamental limitations; squared L2 norm; Additive noise; Closed-form solution; Feedback loop; Gaussian noise; Linear feedback control systems; Noise measurement; Output feedback; Signal to noise ratio; Stability; Time measurement; Additive coloured Gaussian noise (ACGN); signal-to-noise ratio (SNR);
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2009.2022114
