Research Article
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PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması

Year 2020, , 1111 - 1119, 01.12.2020
https://doi.org/10.2339/politeknik.603344

Abstract

Bu
çalışmada iki farklı metot kullanılarak PID parametre ayarlaması yapılmıştır.
İlk olarak Doğrusal Karesel Düzenleyici (LQR) yaklaşımı kullanılarak maliyet
fonksiyonu minimize edilmiş ve optimal parametreler elde edilerek LQR tabanlı
PID denetleyici tasarlanmıştır. Ardından LQR maliyet fonksiyonunun
minimizasyonu için Genetik Algoritma (GA) kullanılmış ve GA tabanlı PID
denetleyici tasarlanmıştır. Tasarlanan PID denetleyiciler bir sıvı seviye
kontrol sisteminde benzetimsel ve deneysel olarak test edilmiş ve performans
karşılaştırmaları yapılmıştır. Deneysel sonuçlar, GA tabanlı PID'nin
performansının LQR tabanlı PID'den performans indisleri açısından daha başarılı
olduğunu göstermektedir. GA Tabanlı PID için normalize edilmiş ITSE indisi
0.6479 ile daha başarılı performans sergilemiştir.

References

  • H. N. Koivo and J. T. Tanttu, “Tuning of PID Conrollers: Survey of Siso and Mimo Techniques,” IFAC Proc. Vol., 2017.
  • A. Ghosh, T. R. Krishnan, and B. Subudhi, “Brief Paper - Robust proportional-integral-derivative compensation of an inverted cart-pendulum system: an experimental study,” IET Control Theory Appl., 2012.
  • G. Lin and G. Liu, “Tuning PID controller using adaptive genetic algorithms,” in ICCSE 2010 - 5th International Conference on Computer Science and Education, Final Program and Book of Abstracts, 2010.
  • T. Hägglund and K. J. Åström, “Revisiting The Ziegler-Nichols Tuning Rules For Pi Control,” Asian J. Control, 2008.
  • W. Chunchen, C. Feng, Z. Guang, Y. Ming, L. Li, and W. Taihu, “Desing of Genetic Algorithm Optimized PID Controller for Gas Mixture System,” in 2017 IEEE 13th International Conference on Electronic Measurement & Instruments, 2017.
  • B. Nagaraj, S. Subha, and B. Rampriya, “Tuning algorithms for PID controller using soft computing techniques,” Int. J. Comput. Sci. Netw. Secur. IJCSNS, 2008.
  • D. A. R. Wati and R. Hidayat, “Genetic algorithm-based PID parameters optimization for air heater temperature control,” in Proceedings of 2013 International Conference on Robotics, Biomimetics, Intelligent Computational Systems, ROBIONETICS 2013, 2013.
  • Z. Cheng and H. Xu, “PID Controller Parameters Optimization Based on Artificial Fish Swarm Algorithm,” Fifth Int. Conf. Intell. Comput. Technol. Autom., 2012.
  • H. Fang and L. Chen, “Application of an enhanced PSO algorithm to optimal tuning of PID gains,” in 2009 Chinese Control and Decision Conference, CCDC 2009, 2009.
  • B. Sravan, T. S. Babu, and N. Rajasekar, “Tuning PID Controller for Inverted Pendulum Using Genetic Algorithm,” Adv. Syst. Control Autom., pp. 395–404, 2018.
  • M. K. Al-Smadi, Y. Hu, and Y. Mahmoud, “LQR-based PID Voltage Controller for Photovoltaic Systems,” 44th Annu. Conf. IEEE Ind. Electron. Soc., pp. 1854–1859, 2018.
  • O. Saleem and M. Rizwan, “Performance optimization of LQR-based PID controller for DC-DC buck converter via iterative-learning-tuning of state-weighting matrix,” Int. J. Numer. Model. Electron. Networks, Devices Fields, vol. 32, 2019.
  • T. Wang, Q. Wang, Y. Hou, and D. Chaoyang, “Suboptimal controller design for flexible launch vehicle based on genetic algorithm: selection of the weighting matrices Q and R,” IEEE Int. Conf. Intell. Comput. Intell. Syst., vol. 2, pp. 720–724, 2009.
  • S. Das, I. Pan, K. Halder, S. Das, and A. Gupta, “LQR based improved discrete PID controller design via optimum selection of weighting matrices using fractional order integral performance index,” Appl. Math. Model., 2013.
  • S. Saha, S. Das, S. Das, and A. Gupta, “A conformal mapping based fractional order approach for sub-optimal tuning of PID controllers with guaranteed dominant pole placement,” Commun. Nonlinear Sci. Numer. Simul., 2012.
  • S. Brunton and N. Kutz, Data Driven Science and Engineering. Cambridge University Press, 978-1-108-42209-3, 2019.

LQR and GA based PID Parameter Optimization: Liquid Level Control Application

Year 2020, , 1111 - 1119, 01.12.2020
https://doi.org/10.2339/politeknik.603344

Abstract

In this study, PID parameter tuning was made by using two different
methods. Firstly, LQR based PID controller is designed by minimizing the cost
function by obtaining Linear Quadratic Regulator (LQR) approach. Then Genetic
Algorithm (GA) was used for minimizing the LQR cost function and GA based PID
controller was designed. The designed PID controllers have been simulated and
experimentally tested in a liquid level control system and performance
comparisons have been made. Experimental results show that the performance of
the GA based PID is better than LQR based PID in terms of performance indices
. Normalized ITSE index of 0.6479 is achieved for better performing GA
based PID.

References

  • H. N. Koivo and J. T. Tanttu, “Tuning of PID Conrollers: Survey of Siso and Mimo Techniques,” IFAC Proc. Vol., 2017.
  • A. Ghosh, T. R. Krishnan, and B. Subudhi, “Brief Paper - Robust proportional-integral-derivative compensation of an inverted cart-pendulum system: an experimental study,” IET Control Theory Appl., 2012.
  • G. Lin and G. Liu, “Tuning PID controller using adaptive genetic algorithms,” in ICCSE 2010 - 5th International Conference on Computer Science and Education, Final Program and Book of Abstracts, 2010.
  • T. Hägglund and K. J. Åström, “Revisiting The Ziegler-Nichols Tuning Rules For Pi Control,” Asian J. Control, 2008.
  • W. Chunchen, C. Feng, Z. Guang, Y. Ming, L. Li, and W. Taihu, “Desing of Genetic Algorithm Optimized PID Controller for Gas Mixture System,” in 2017 IEEE 13th International Conference on Electronic Measurement & Instruments, 2017.
  • B. Nagaraj, S. Subha, and B. Rampriya, “Tuning algorithms for PID controller using soft computing techniques,” Int. J. Comput. Sci. Netw. Secur. IJCSNS, 2008.
  • D. A. R. Wati and R. Hidayat, “Genetic algorithm-based PID parameters optimization for air heater temperature control,” in Proceedings of 2013 International Conference on Robotics, Biomimetics, Intelligent Computational Systems, ROBIONETICS 2013, 2013.
  • Z. Cheng and H. Xu, “PID Controller Parameters Optimization Based on Artificial Fish Swarm Algorithm,” Fifth Int. Conf. Intell. Comput. Technol. Autom., 2012.
  • H. Fang and L. Chen, “Application of an enhanced PSO algorithm to optimal tuning of PID gains,” in 2009 Chinese Control and Decision Conference, CCDC 2009, 2009.
  • B. Sravan, T. S. Babu, and N. Rajasekar, “Tuning PID Controller for Inverted Pendulum Using Genetic Algorithm,” Adv. Syst. Control Autom., pp. 395–404, 2018.
  • M. K. Al-Smadi, Y. Hu, and Y. Mahmoud, “LQR-based PID Voltage Controller for Photovoltaic Systems,” 44th Annu. Conf. IEEE Ind. Electron. Soc., pp. 1854–1859, 2018.
  • O. Saleem and M. Rizwan, “Performance optimization of LQR-based PID controller for DC-DC buck converter via iterative-learning-tuning of state-weighting matrix,” Int. J. Numer. Model. Electron. Networks, Devices Fields, vol. 32, 2019.
  • T. Wang, Q. Wang, Y. Hou, and D. Chaoyang, “Suboptimal controller design for flexible launch vehicle based on genetic algorithm: selection of the weighting matrices Q and R,” IEEE Int. Conf. Intell. Comput. Intell. Syst., vol. 2, pp. 720–724, 2009.
  • S. Das, I. Pan, K. Halder, S. Das, and A. Gupta, “LQR based improved discrete PID controller design via optimum selection of weighting matrices using fractional order integral performance index,” Appl. Math. Model., 2013.
  • S. Saha, S. Das, S. Das, and A. Gupta, “A conformal mapping based fractional order approach for sub-optimal tuning of PID controllers with guaranteed dominant pole placement,” Commun. Nonlinear Sci. Numer. Simul., 2012.
  • S. Brunton and N. Kutz, Data Driven Science and Engineering. Cambridge University Press, 978-1-108-42209-3, 2019.
There are 16 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Research Article
Authors

Gökhan Yüksek 0000-0002-6832-8622

Ahmet Naci Mete 0000-0002-0406-8577

Alkan Alkaya 0000-0002-8235-6726

Publication Date December 1, 2020
Submission Date August 7, 2019
Published in Issue Year 2020

Cite

APA Yüksek, G., Mete, A. N., & Alkaya, A. (2020). PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması. Politeknik Dergisi, 23(4), 1111-1119. https://doi.org/10.2339/politeknik.603344
AMA Yüksek G, Mete AN, Alkaya A. PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması. Politeknik Dergisi. December 2020;23(4):1111-1119. doi:10.2339/politeknik.603344
Chicago Yüksek, Gökhan, Ahmet Naci Mete, and Alkan Alkaya. “PID Parametrelerinin LQR Ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması”. Politeknik Dergisi 23, no. 4 (December 2020): 1111-19. https://doi.org/10.2339/politeknik.603344.
EndNote Yüksek G, Mete AN, Alkaya A (December 1, 2020) PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması. Politeknik Dergisi 23 4 1111–1119.
IEEE G. Yüksek, A. N. Mete, and A. Alkaya, “PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması”, Politeknik Dergisi, vol. 23, no. 4, pp. 1111–1119, 2020, doi: 10.2339/politeknik.603344.
ISNAD Yüksek, Gökhan et al. “PID Parametrelerinin LQR Ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması”. Politeknik Dergisi 23/4 (December 2020), 1111-1119. https://doi.org/10.2339/politeknik.603344.
JAMA Yüksek G, Mete AN, Alkaya A. PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması. Politeknik Dergisi. 2020;23:1111–1119.
MLA Yüksek, Gökhan et al. “PID Parametrelerinin LQR Ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması”. Politeknik Dergisi, vol. 23, no. 4, 2020, pp. 1111-9, doi:10.2339/politeknik.603344.
Vancouver Yüksek G, Mete AN, Alkaya A. PID Parametrelerinin LQR ve GA Tabanlı Optimizasyonu: Sıvı Seviye Kontrol Uygulaması. Politeknik Dergisi. 2020;23(4):1111-9.
 
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