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Parametrization and Optimal Tuning of Constrained Series PIDA Controller for IPDT Models
by
Vrancic, Damir
, Huba, Mikulas
, Bistak, Pavol
in
Analysis
/ automatic reset
/ Circle criterion
/ Closed loops
/ Complex numbers
/ constrained control
/ Constraint modelling
/ Control systems
/ Control systems design
/ Control theory
/ Controllers
/ derivative action
/ Feedback
/ Feedback control
/ Feedback loops
/ filtration
/ Frequency analysis
/ multiple real dominant pole method
/ Parameter modification
/ Parameterization
/ Positive feedback
/ Proportional integral derivative
/ Real numbers
/ Robust control
/ robustness
/ Servocontrol
/ Stability analysis
/ Time constant
/ Transfer functions
/ Tuning
2023
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Parametrization and Optimal Tuning of Constrained Series PIDA Controller for IPDT Models
by
Vrancic, Damir
, Huba, Mikulas
, Bistak, Pavol
in
Analysis
/ automatic reset
/ Circle criterion
/ Closed loops
/ Complex numbers
/ constrained control
/ Constraint modelling
/ Control systems
/ Control systems design
/ Control theory
/ Controllers
/ derivative action
/ Feedback
/ Feedback control
/ Feedback loops
/ filtration
/ Frequency analysis
/ multiple real dominant pole method
/ Parameter modification
/ Parameterization
/ Positive feedback
/ Proportional integral derivative
/ Real numbers
/ Robust control
/ robustness
/ Servocontrol
/ Stability analysis
/ Time constant
/ Transfer functions
/ Tuning
2023
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Parametrization and Optimal Tuning of Constrained Series PIDA Controller for IPDT Models
by
Vrancic, Damir
, Huba, Mikulas
, Bistak, Pavol
in
Analysis
/ automatic reset
/ Circle criterion
/ Closed loops
/ Complex numbers
/ constrained control
/ Constraint modelling
/ Control systems
/ Control systems design
/ Control theory
/ Controllers
/ derivative action
/ Feedback
/ Feedback control
/ Feedback loops
/ filtration
/ Frequency analysis
/ multiple real dominant pole method
/ Parameter modification
/ Parameterization
/ Positive feedback
/ Proportional integral derivative
/ Real numbers
/ Robust control
/ robustness
/ Servocontrol
/ Stability analysis
/ Time constant
/ Transfer functions
/ Tuning
2023
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Parametrization and Optimal Tuning of Constrained Series PIDA Controller for IPDT Models
Journal Article
Parametrization and Optimal Tuning of Constrained Series PIDA Controller for IPDT Models
2023
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Overview
The new modular approach to constrained control of higher-order processes with dominant first-order dynamics using generalized controllers with automatic resets (ARCs) is addressed. The controller design is based on the multiple real dominant pole (MRDP) method for the integrator plus dead time (IPDT) process models. The controller output constraints are taken into account by inserting the smallest numerator time constant of the controller transfer function into the positive feedback loop representing the automatic reset (integral) term. In the series realization of the proportional–integral–derivative–acceleration (PIDA) controller (and other controllers with even derivative degree), the time constant mentioned is complex, so only the real part of the time constant has been used so far. Other possible conversions of a complex number to a real number, such as the absolute value (modulus), can be covered by introducing a tuning parameter that modifies the calculated real time constant and generalizes the mentioned conversion when designing controllers with constraints. In this article, the impact of the tuning parameter on the overall dynamics of the control loop is studied by simulation. In addition, an evaluation of the stability of the closed-loop control system is performed using the circle criterion in the frequency domain. The analysis has shown that the approximation of the complex zero by its real part and modulus leads to a near optimal response to the set point tracking. The disturbance rejection can be significantly improved by increasing the tuning parameter by nearly 50%. In general, the tuning parameter can be used to find a compromise between servo and regulatory control. The robustness and applicability of the proposed controller is evaluated using a time-delayed process with first-order dominant dynamics when the actual transfer function is much more complicated than the IPDT model. A comparison of the proposed MRDP-PIDA controller with series PI, PID and PIDA controllers based on a modified SIMC method has shown that the MRDP-PIDA controller performs better than the SIMC method, although the SIMC uses a more complex process model.
Publisher
MDPI AG
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