Proceedings of the 1999 IEEE International Conference on Control Applications (Cat. No.99CH36328)
DOI: 10.1109/cca.1999.806712
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Auto-tuning PID using loop-shaping ideas

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Cited by 6 publications
(6 citation statements)
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“…Two of the most relevant techniques are relay feedback (Hagglund and Astrom, 1985), and set point relay (Luo et al, 1998). Some recent findings in this area are iterative tuning with cost minimization (Akerblad et al, 2000) and Auto-tuning of PID using Loop-shaping ideas (Gaikwad et al, 1999). These techniques do not provide solution for on-line controller improvement in an automated way for nonlinear processes.…”
Section: Auto-tuningmentioning
confidence: 97%
“…Two of the most relevant techniques are relay feedback (Hagglund and Astrom, 1985), and set point relay (Luo et al, 1998). Some recent findings in this area are iterative tuning with cost minimization (Akerblad et al, 2000) and Auto-tuning of PID using Loop-shaping ideas (Gaikwad et al, 1999). These techniques do not provide solution for on-line controller improvement in an automated way for nonlinear processes.…”
Section: Auto-tuningmentioning
confidence: 97%
“…This approach relies on a brilliant observation, due to G. Stein, that the loop transfer function can be directly optimized to approximate a prescribed target, based on input-output data alone [28,29]. It inherently makes use of a natural frequency weighting by the target loop sensitivity and can be used independent of input signal saturation, but requires the a priori knowledge of a nearly feasible target loop.…”
Section: Direct Identification Of the Pid Controller Parametersmentioning
confidence: 99%
“…One particular design point of view that has emerged and has been well-received in applications [20] is the delivery of multiple tunings, e.g., on a Pareto optimal curve, that allow the user to select among different performance-robustness metrics. A typical implementation of this idea involves high-level tuning parameters, such as closed-loop bandwidth, damping, etc., and the use of simulation to visualize the performance of the tuning with the identified model.…”
mentioning
confidence: 99%
“…Following , the development of an online direct adaptive algorithm that approximates the off‐line FLS solution begins with the transformation of the error operator minimization into an error signal minimization. Such a transformation essentially aims to utilize the plant input–output data instead of its transfer function (or any other model) in order to solve the optimization problem .…”
Section: The Scripthmathclass-rel∞/fb Adaptation Algorithm For Pid Tumentioning
confidence: 99%
“…Next, the reparametrization of the same loop‐shaping objective described in establishes a linear model relationship for the PID parameters, allowing for their direct update with a variety of estimation algorithms, such as least squares (LS). In particular, when this parametrization is combined with the FB idea of , we obtain an adaptation algorithm that approximates the constrained minimization of the operator norm of the error system rather than the energy of the error itself.…”
Section: Introductionmentioning
confidence: 99%