Making the PI and PID Controller Tuning Inspired by Ziegler and Nichols Precise and Reliable

Huba, Mikuláš; Chamraz, Stefan; Bisták, Pavol; Vrančić, Damir

doi:10.3390/s21186157

Cited by 45 publications

(25 citation statements)

References 57 publications

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“…In the design, we try to approximate the practically unlimited range of various dynamical systems using suitably selected mathematical models, for which we implement the design of optional parameters of the controller. From the point of view of the universal applicability of the results achieved by means of individual models, ultra-local integral models [ 38 , 56 ] have proved to be important since the first known method [ 57 ] for setting controllers. Although over time it has become possible to achieve a significant improvement in the dynamic properties of the circuit with more complex structures (as, for example, [ 58 ]), due to their simplicity, PID controllers still maintain an exceptional place in practice.…”

Section: Discussionmentioning

confidence: 99%

Performance Portrait Method: An Intelligent PID Controller Design Based on a Database of Relevant Systems Behaviors

Huba

Vrančić

2022

Sensors

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The article deals with a computer-supported design of optimal and robust proportional-integral-derivative controllers with two degrees of freedom (2DoF PID) for a double integrator plus dead-time (DIPDT) process model. The particular design steps are discussed in terms of intelligent use of all available information extracted from a database of control tracking and disturbance rejection step responses, assessed by means of speed and shape-related performance measures of the process input and output signals, and denoted as a performance portrait (PP). In the first step, the performance portrait method (PPM) is used as a verifier, for whether the pilot analytical design of the parallel 2DoF PID controller did not omit practically interesting settings and shows that the optimality analysis can easily be extended to the series 2DoF PID controller. This is important as an explicit observer of equivalent input disturbances based on steady-state input values of ultra-local DIPDT models, while the parallel PID controller, allowing faster transient responses, needs an additional low-pass filter when reconstructed equivalent disturbances are required. Next, the design efficiency and conciseness in analyzing the effects of different loop parameters on changing the optimal processes are illustrated by an iterative use of PPM, enabled by the visualization of the dependence between the closed-loop performance and the shapes of the control signals. The main contributions of the paper are the introduction of PPM as an intelligent method for controller tuning that mimics an expert with sufficient experience to select the most appropriate solution based on a database of known solutions. In doing so, the analysis in this paper reveals new, previously undiscovered dimensions of PID control design.

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Section: Discussionmentioning

confidence: 99%

Performance Portrait Method: An Intelligent PID Controller Design Based on a Database of Relevant Systems Behaviors

Huba

Vrančić

2022

Sensors

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“…Thus, notwithstanding that in automatic control theory the synthesis of a controller using conventional methods is performed in a strictly formal way, in practice, such synthesis largely depends both on the properties of the control object and on the experience of the designer. This has been confirmed by a large number of publications devoted to the synthesis of such controllers [20][21][22][23][24][25]. Therefore, it can be assumed that if the synthesis and adjustment of the controller coefficients is a formalized procedure and not a creative process, then such a number of publications would be unjustified.…”

Section: Methodsmentioning

confidence: 97%

“…An overview is provided in [20] of the various types of PID controllers that are commonly used in industrial automation, and their advantages and disadvantages were considered. The study by [21] presented the setting of the speed controller of a DC motor based on the modified Ziegler-Nichols method, and [22] investigated a modification of the Ziegler-Nichols method to set a digital PID controller.…”

Section: Methodsmentioning

confidence: 99%

The Fuzzy Logic in the Problems of Test Control of a Bypass Turbojet Engine Gas Generator

et al. 2022

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Continuous improvement in the operational characteristics of gas turbine equipment and a significant reduction in the time of its creation have led to the development and application of new technologies for conducting research tests of a gas generator—the basic section of a bypass turbojet engine. Carrying out such tests requires the reproduction of the thermo gas dynamic parameters of the working fluid at the gas generator inlet to ensure maximum similarity to the processes occurring in the engine being designed. Obtaining a working fluid with the required thermo gas dynamic parameters such as temperature, pressure, and air flow rate is carried out on the basis of a test complex. The test complex, as a control object, is a non-linear, non-stationary, multi-variable system, where each controlled variable substantially depends on other control actions. The article presents the main aspects of the behavior of the object under consideration, which are the basis for the development of an automated test system and, in particular, the principles of forming control algorithms based on the theory of fuzzy logic. The graphs of the state and control of the main elements of the test complex are presented. Special attention is given to the analysis of the proposed control algorithms.

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“…Ziegler-Nichols Method. The adjustment method for the PID controller proposed by Ziegler and Nichols [14] is mainly used in industries. This is a manual mode process based on an open-loop step response from a system, and it is indicated for a first-order plant model plus the dead time represented by…”

Section: Mathematical Modelingmentioning

confidence: 99%

Computational Validation of the Best Tuning Method for a Vehicle-Integrated PID Controller

Manuel

Santos

Lenzi

et al. 2022

Modelling and Simulation in Engineering

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This paper validates and analyzes the robustness of the proportional-integral-derivative (PID) action controller from an open transfer function that integrates a proportional-integral (PI) action controller to obtain the response of a robust action control during the automatic parking maneuver of a vehicle where the simulations are based on 3 adjustment methods: Ziegler-Nichols (ZN), Chien-Hrones-Reswick (CHR), and Cohen-Coon (CC), and as a result of the computer simulations, it is determined the best performance index of the PID controller represented by mathematical and graphic equations with the help of MATLAB/Simulink software.

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Making the PI and PID Controller Tuning Inspired by Ziegler and Nichols Precise and Reliable

Cited by 45 publications

References 57 publications

Performance Portrait Method: An Intelligent PID Controller Design Based on a Database of Relevant Systems Behaviors

Performance Portrait Method: An Intelligent PID Controller Design Based on a Database of Relevant Systems Behaviors

The Fuzzy Logic in the Problems of Test Control of a Bypass Turbojet Engine Gas Generator

Computational Validation of the Best Tuning Method for a Vehicle-Integrated PID Controller

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