On Time-Delay Compensators for Delayed-Output Systems

Abstract

This paper advances the practical utility of functional observer theory by addressing sensing latency in linear time-delay systems. We address the estimation of the functional z(t)=Fx(t) in cases where the measurement delay h is independent of the internal state delay τ, with a specific focus on the condition 0 < h < τ. To compensate for sensing lags, we propose a functional observer structure characterized by multiple internal delays and an augmented architecture. Algebraic existence conditions are established alongside a constructive synthesis procedure. By incorporating an additional delayed measurement vector, we demonstrate that this approach significantly expands the design space and is applicable to a wider class of systems with larger state and output delays.