Journal Article10.1016/J.ISATRA.2013.09.011
A simple nonlinear PD controller for integrating processes
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TL;DR: An auto-tuning proportional-derivative controller (APD) where a nonlinear gain updating factor α continuously adjusts the proportional and derivative gains to achieve an overall improved performance during set point change as well as load disturbance is proposed.
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Abstract: Many industrial processes are found to be integrating in nature, for which widely used Ziegler–Nichols tuned PID controllers usually fail to provide satisfactory performance due to excessive overshoot with large settling time. Although, IMC (Internal Model Control) based PID controllers are capable to reduce the overshoot, but little improvement is found in the load disturbance response. Here, we propose an auto-tuning proportional-derivative controller (APD) where a nonlinear gain updating factor α continuously adjusts the proportional and derivative gains to achieve an overall improved performance during set point change as well as load disturbance. The value of α is obtained by a simple relation based on the instantaneous values of normalized error ( e N ) and change of error (Δ e N ) of the controlled variable. Performance of the proposed nonlinear PD controller (APD) is tested and compared with other PD and PID tuning rules for pure integrating plus delay (IPD) and first-order integrating plus delay (FOIPD) processes. Effectiveness of the proposed scheme is verified on a laboratory scale servo position control system.
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Citations
Load frequency control for mini-hydropower system: A new approach based on self-tuning fuzzy proportional-derivative scheme
M. Reyasudin Basir Khan,M. Reyasudin Basir Khan,Jagadeesh Pasupuleti,Jagadeesh Pasupuleti,Razali Jidin,Razali Jidin +5 more
TL;DR: The proposed controller was used to controls the frequency of a high-penetration mini-hydropower system and demonstrates robust and high-performance frequency control compared to conventional fixed-gain PD controller.
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Enhanced PID Controllers Design Based on Modified Smith Predictor Control for Unstable Process with Time Delay
Yin Chengqiang,Gao Jie,Qun Sun +2 more
TL;DR: In this paper, a two-degree-of-freedom control structure for a class of unstable processes with time delay based on modified Smith predictor control is proposed for the system, where the set-point tracking controller is designed using the direct synthesis method; the IMC-PID controller for disturbance rejection is designed based on the internal mode control design principle.
Discrete-Time Modeling and Control for LFC based on Fuzzy Tuned Fractional-Order PD<sup>μ</sup> Controller in a Sustainable Hybrid Power System
01 Jan 2023
TL;DR: In this article , a discrete-time modeling of fuzzy-tuned fractional-order proportional derivative (F-FOPD) controller for load frequency control (LFC) of a hybrid power system is presented.
Laser dot projection videogrammetry for vibration measurement and control of a piezoelectric flexible cantilever plate
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An improved nonlinear proportional-integral-differential controller combined with fractional operator and symbolic adaptation algorithm:
TL;DR: A symbolic adaptation algorithm for fractional order PID (FOPID) controller is employed to obtain precise nonlinear controller model and the proposed algorithm can establish compact dynamic models by amending the shortcomings of symbolic regression.
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References
•Book
Modern control engineering
Katsuhiko Ogata
- 01 Jan 1970
TL;DR: This comprehensive treatment of the analysis and design of continuous-time control systems provides a gradual development of control theory and shows how to solve all computational problems with MATLAB.
7.4K
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.
5.8K
•Book
PID Controllers: Theory, Design, and Tuning
Karl Johan Åström,Tore Hägglund +1 more
- 01 Jan 1995
5.4K
Optimum Settings for Automatic Controllers
J. G. Ziegler
- 01 Jan 1942
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.
4.8K
PID control system analysis, design, and technology
Kiam Heong Ang,G. Chong,Yun Li +2 more
TL;DR: It is seen that many PID variants have been developed in order to improve transient performance, but standardising and modularising PID control are desired, although challenging, and the inclusion of system identification and "intelligent" techniques in software based PID systems helps automate the entire design and tuning process to a useful degree.