An enhanced discrete-time tracking differentiator (TD) with high precision based on discrete-time optimal control (DTOC) law is proposed. This law takes the form of state feedback for a double-integral system that adopts the Isochronic Region approach. There, the control signal sequence is determined by a linearized criterion based on the position of the initial state point on the phase plane. The proposed control law can be easily extended to the TD design problem by combining the first-state variable of the double-integral system with the desired trajectory. To improve the precision of the discretization model, we introduced a zero-order hold on the control signal. We also discuss the general form of DTOC law by analysing the relationship...
International audienceThis paper proposes first partial results for a new class of differentiators. ...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
The transformation into discrete-time equivalents of digital optimal control problems, involving con...
In this brief, a novel tracking differentiator (TD) based on discrete time optimal control (DTOC) is...
As an alternative to bang-bang control, a time optimal control (TOC) algorithm for discrete-time sys...
A discrete-time tracking differentiator (TD) based on a time criterion is presented. Its control law...
Abstract: A survey of several kinds differentiators is given firstly. The comparison shows the track...
The convergence of a new closed-form solution for the discrete-time optimal control is presented. Fi...
For a general H2 optimal control problem, at first all H2 optimal measurement feedback controllers a...
This thesis is concerned with the True Digital Control (TDC) design philosophy and its practical emb...
Differential signals are key in control engineering as they anticipate future behavior of process va...
This book presents practical techniques of discrete-time control system design. In general, the desi...
In this paper, we first construct a new state and disturbance estimator using discrete-time proporti...
this paper. The first one deals with the characterization and parameterization of all H 2 optimal me...
In this paper, a general optimum full-band, highorder discrete-time differentiator design problem is...
International audienceThis paper proposes first partial results for a new class of differentiators. ...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
The transformation into discrete-time equivalents of digital optimal control problems, involving con...
In this brief, a novel tracking differentiator (TD) based on discrete time optimal control (DTOC) is...
As an alternative to bang-bang control, a time optimal control (TOC) algorithm for discrete-time sys...
A discrete-time tracking differentiator (TD) based on a time criterion is presented. Its control law...
Abstract: A survey of several kinds differentiators is given firstly. The comparison shows the track...
The convergence of a new closed-form solution for the discrete-time optimal control is presented. Fi...
For a general H2 optimal control problem, at first all H2 optimal measurement feedback controllers a...
This thesis is concerned with the True Digital Control (TDC) design philosophy and its practical emb...
Differential signals are key in control engineering as they anticipate future behavior of process va...
This book presents practical techniques of discrete-time control system design. In general, the desi...
In this paper, we first construct a new state and disturbance estimator using discrete-time proporti...
this paper. The first one deals with the characterization and parameterization of all H 2 optimal me...
In this paper, a general optimum full-band, highorder discrete-time differentiator design problem is...
International audienceThis paper proposes first partial results for a new class of differentiators. ...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
The transformation into discrete-time equivalents of digital optimal control problems, involving con...