A neural network approach for on-line parameter estimation in unknown or poorly known processes with a time delay is proposed. The case of plants with unknown time delay and/or steady state gain has been considered. The main result of the paper is the analytical proof of the weight distribution as a sampling centred on the correct value of the time delay. Such a property, along with the estimation of the steady-state gain of the process from the sum of the weights, leads to an accurate identification of the unknown parameters of a process with time delay. A practical application of such a result is the design of an adaptive Smith controller. Simulation results are included in the paper to illustrate the proposed technique
Abstract: This paper considers the use of neural networks for non-linear state estimation, identific...
Time-delays (dead times) are found in many processes in industry. Time-delays are mainly caused by t...
Controller gain is often limited by time delay in the control loop and therefore actuation is constr...
This paper deals with the problem of identification of unknown parameters and time-delay of dynamica...
The estimation and compensation of processes with time delays have been of interest to academics and...
A new method of correlating the output variable with the input variables of the system has been used...
A novel approach for estimating constant time delay through the use of neural networks (NN) is intr...
This paper discusses the estimation of process parameters and ti me delay, in a Smith ...
In this letter, we address the problem of online identification of nonlinear continuous-time systems...
In many situation of industrial interest, the control designer needs qualitative information on the ...
This article presents an online identification scheme for modeling time-delayed processes using a si...
In the development of model predictive controllers a significant amount of time and effort is necess...
This paper presents an approach for realtime systems, as hybrid testing, active and semiactive contr...
A number of approaches have been proposed for parameter and time delay estimation of process models ...
A new adaptive nonlinear state predictor (ANSP) is presented for a class of unknown nonlinear system...
Abstract: This paper considers the use of neural networks for non-linear state estimation, identific...
Time-delays (dead times) are found in many processes in industry. Time-delays are mainly caused by t...
Controller gain is often limited by time delay in the control loop and therefore actuation is constr...
This paper deals with the problem of identification of unknown parameters and time-delay of dynamica...
The estimation and compensation of processes with time delays have been of interest to academics and...
A new method of correlating the output variable with the input variables of the system has been used...
A novel approach for estimating constant time delay through the use of neural networks (NN) is intr...
This paper discusses the estimation of process parameters and ti me delay, in a Smith ...
In this letter, we address the problem of online identification of nonlinear continuous-time systems...
In many situation of industrial interest, the control designer needs qualitative information on the ...
This article presents an online identification scheme for modeling time-delayed processes using a si...
In the development of model predictive controllers a significant amount of time and effort is necess...
This paper presents an approach for realtime systems, as hybrid testing, active and semiactive contr...
A number of approaches have been proposed for parameter and time delay estimation of process models ...
A new adaptive nonlinear state predictor (ANSP) is presented for a class of unknown nonlinear system...
Abstract: This paper considers the use of neural networks for non-linear state estimation, identific...
Time-delays (dead times) are found in many processes in industry. Time-delays are mainly caused by t...
Controller gain is often limited by time delay in the control loop and therefore actuation is constr...