Journal ArticleDOI
Autotune identification under load disturbance
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TLDR
In this paper, an output-biased relay is employed to restore symmetric output response, instead of a trial-and-error procedure, the bias value can be calculated immediately following system responses.Abstract:
Frequent and large load changes are often encountered in chemical processes. This can be lead to erroneous results in system identification especially for the fully automated identification procedure in autotuners. Relatively speaking, the relay feedback test is less sensitive to load disturbance (e.g., as compared to the step test). However, as the magnitude of load increases, the estimates of ultimate gain and ultimate frequency deteriorate exponentially. In this work, the causes of errors are analyzed using a describing function and a remedial action is devised. Since load disturbance leads to asymmetric output responses, an output-biased relay is employed to restore symmetric output response. Furthermore, instead of a trial-and-error procedure, the bias value can be calculated immediately following system responses. Subsequently, an identification procedure is proposed to maintain the quality of the model in the face of load changes. Linear and nonlinear systems are used to test the effectiveness of t...read more
Citations
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Journal ArticleDOI
Relay Feedback Auto-tuning of Process Controllers – A Tutorial Review
TL;DR: The PID relay auto-tuner of Astrom-Hagglund is one of the simplest and most robust autotuning techniques for process controllers and has been successfully applied to industry for more than 15 years.
Journal ArticleDOI
A tutorial review on process identification from step or relay feedback test
TL;DR: The process models with time delay mainly adopted for identification in the literature are presented with a classification on different response types, along with two specific categories for robust identification against load disturbance and the identification of multivariable or nonlinear processes.
Journal ArticleDOI
Improved relay auto-tuning with static load disturbance
TL;DR: In the presence of static load disturbance, a relay auto-tuning experiment shows significant errors in estimating the ultimate gain and period and how to overcome the problem without any information on the static gain of the process is shown.
Journal ArticleDOI
Asymmetric relay autotuning - Practical features for industrial use
TL;DR: In this paper, an asymmetric relay autotuning with features such as a startup procedure and adaptive relay amplitudes is proposed for industrial air handling units, which is implemented and tested on an industrial air-handling unit.
Journal ArticleDOI
Integrals of relay feedback responses for extracting process information
TL;DR: In this paper, the authors proposed new identification methods, which use integrals of the relay response instead of the point data, which guarantee better accuracy and advantages in obtaining the ultimate information of process as well as parametric models compared with previous approaches.
References
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Optimum Settings for Automatic Controllers
J. G. Ziegler,N. B. Nichols +1 more
TL;DR: In this paper, the three principal control effects found in present controllers are examined and practical names and units of measurement are proposed for each effect and corresponding units for a classification of industrial processes in terms of two principal characteristics affecting their controllability.
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Process modeling
TL;DR: In this article, software process modeling will be used as an example application for describing the current status of process modeling, issues for practical use, and the research questions that remain ahead.
Journal ArticleDOI
Paper: Automatic tuning of simple regulators with specifications on phase and amplitude margins
Karl Johan Åström,Tore Hägglund +1 more
TL;DR: A simple method for estimating the critical gain and the critical frequency is described, which may be used for automatic tuning of simple regulators as well as initialization of more complicated adaptive regulators.
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Process Control: Designing Processes and Control Systems for Dynamic Performance
TL;DR: In this paper, the Proportional-Integral-Derivative (PID) algorithm is used to tune a PID controller for dynamic performance. But, it is not suitable for non-linear processes.
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