This contribution investigates adaptive control of a First Order Plus Dead Time (FOPDT) system. An adaptive-control structure for dead-time compensation is justified by comparing it with a Smith predictor, and the justification for adaptation is explained with a simple example using arguments from Quantitative Feedback Theory. A novel identification algorithm is compared with two established ones by simulating them together with a FOPDT system in the considered adaptive-control structure. The simulations show that the modified scheme performs well compared to the established ones for the specific problem considered
It is well known that, for the responsive system, the integrated SPC and EPC schemes always outperfo...
This paper proposes a dead time compensator based on a combination of the linear algebra control met...
E-mail: vannhat chu(i3vahoo.com Ah.wocf- Presents are now results on designing a robust adaptive dir...
This contribution investigates adaptive control of a First Order Plus Dead Time (FOPDT) system. An a...
In this work a new paradigm for designing controllers for poorly modeled plants with significant dea...
Research in the adaptive control of unknown or partially known system spans the last 25 years. Sound...
The article reviews the results of a number of recent papers dealing with the revision of the simple...
It is shown that the classical controllers for dead-time systems, known as Smith predictors, provide...
Adaptive control is now finding its way into the marketplace after many years of effort. This paper ...
The Proportional Integral Derivative Controller is a typical controller implemented frequently in ma...
During the past few years, many non-linear and/or adaptive control algorithms have been developed fo...
Time-delays (dead times) are found in many processes in industry. Time-delays are mainly caused by t...
This paper describes tuning procedures for dead-time compensating controllers (DTC). Both stable and...
The Time-Varying First Order Plus Dead Time (TV-FOPDT) model is an extension of the conventional FOP...
AbstractThis note presents an adaptive control scheme for first-order continuous-time systems subjec...
It is well known that, for the responsive system, the integrated SPC and EPC schemes always outperfo...
This paper proposes a dead time compensator based on a combination of the linear algebra control met...
E-mail: vannhat chu(i3vahoo.com Ah.wocf- Presents are now results on designing a robust adaptive dir...
This contribution investigates adaptive control of a First Order Plus Dead Time (FOPDT) system. An a...
In this work a new paradigm for designing controllers for poorly modeled plants with significant dea...
Research in the adaptive control of unknown or partially known system spans the last 25 years. Sound...
The article reviews the results of a number of recent papers dealing with the revision of the simple...
It is shown that the classical controllers for dead-time systems, known as Smith predictors, provide...
Adaptive control is now finding its way into the marketplace after many years of effort. This paper ...
The Proportional Integral Derivative Controller is a typical controller implemented frequently in ma...
During the past few years, many non-linear and/or adaptive control algorithms have been developed fo...
Time-delays (dead times) are found in many processes in industry. Time-delays are mainly caused by t...
This paper describes tuning procedures for dead-time compensating controllers (DTC). Both stable and...
The Time-Varying First Order Plus Dead Time (TV-FOPDT) model is an extension of the conventional FOP...
AbstractThis note presents an adaptive control scheme for first-order continuous-time systems subjec...
It is well known that, for the responsive system, the integrated SPC and EPC schemes always outperfo...
This paper proposes a dead time compensator based on a combination of the linear algebra control met...
E-mail: vannhat chu(i3vahoo.com Ah.wocf- Presents are now results on designing a robust adaptive dir...