The purpose of this paper is to study what happens when the discrete-time loop transfer recovery (LTR) procedure is applied to plants with nonminimum phase zeros and with uniform time delay in all channels. Explicit expressions are given for the asymptotic behavior of the resulting sensitivity function and loop transfer function. These results yield a better understanding of the mechanism of the discrete-time loop transfer recovery procedure and the design limitations due to nonminimum phase zeros and time delays.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/30951/1/0000623.pd
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The authors consider the problem of loop-transfer recovery (LTR) using prediction estimators for squ...
For discrete-time non-minimum phase plants with feedback delays, we discuss two Loop Transfer Recove...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
This paper applies the proportional-integral (PI) observer in connection with loop transfer recovery...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
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Feedback timing recovery schemes suffer from the delay in the feedback loop. Since this delay can be...
Abstract: This is a partial result about the loop transfer recovery (LTR) structure in frequency dom...
none4As an extension of existing results on input reconstruction, we define l-delay state and input ...
The subject of this paper is the modelling of the in°uence of non-minimum phase discrete-time system...
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A general and concise formulation is given of the loop transfer recovery (LTR) design problem based ...
Abstract--This paper addresses compensation of dealys within a multi-input-multi-output discrete-tim...
ABSCTRACT: In this paper a new method is introduced and investigated for removing the destabilizing ...
In this paper, we investigate tracking properties of linear shift-invariant feedback control systems...
The authors consider the problem of loop-transfer recovery (LTR) using prediction estimators for squ...
For discrete-time non-minimum phase plants with feedback delays, we discuss two Loop Transfer Recove...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
This paper applies the proportional-integral (PI) observer in connection with loop transfer recovery...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
The discrete-time phase-locked loop (PLL) operating at the steady state is considered in this paper....
Feedback timing recovery schemes suffer from the delay in the feedback loop. Since this delay can be...
Abstract: This is a partial result about the loop transfer recovery (LTR) structure in frequency dom...
none4As an extension of existing results on input reconstruction, we define l-delay state and input ...
The subject of this paper is the modelling of the in°uence of non-minimum phase discrete-time system...
In this report we study estimation of time delays in linear dynamical systems with additive noise. E...
A general and concise formulation is given of the loop transfer recovery (LTR) design problem based ...
Abstract--This paper addresses compensation of dealys within a multi-input-multi-output discrete-tim...
ABSCTRACT: In this paper a new method is introduced and investigated for removing the destabilizing ...
In this paper, we investigate tracking properties of linear shift-invariant feedback control systems...