Open Access

Stability and convergence analysis of intelligent control algorithm based on fuzzy set theory in dynamic environment

Weiqiang Hu

Weiqiang Hu

Zhengzhou Technical CollegeZhengzhou Henan, China
Search for this author on
Sciendo|Google Scholar
Hu, Weiqiang
  
Sep 26, 2025
Stability and convergence analysis of intelligent control algorithm based on fuzzy set theory in dynamic environment's Cover Image
About this article
Previous Article
Next Article
Cite
Download Cover
Published Online: Sep 26, 2025
Received: Dec 29, 2024
Accepted: Apr 19, 2025
DOI: https://doi.org/10.2478/amns-2025-1065
Keywords
© 2025 Weiqiang Hu, published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

Liu, L., Liu, Y. J., & Tong, S. (2018). Fuzzy-based multierror constraint control for switched nonlinear systems and its applications. IEEE Transactions on Fuzzy Systems, 27(8), 1519-1531. LiuL., LiuY. J. & TongS. (2018). Fuzzy-based multierror constraint control for switched nonlinear systems and its applications. IEEE Transactions on Fuzzy Systems, 27(8), 1519-1531.Search in Google Scholar

Ding, J., & Zhang, W. (2021). Finite-time adaptive control for nonlinear systems with uncertain parameters based on the command filters. International Journal of Adaptive Control and Signal Processing, 35(9), 1754-1767. DingJ. & ZhangW. (2021). Finite-time adaptive control for nonlinear systems with uncertain parameters based on the command filters. International Journal of Adaptive Control and Signal Processing, 35(9), 1754-1767.Search in Google Scholar

Zou, W., Ahn, C. K., & Xiang, Z. (2020). Analysis on existence of compact set in neural network control for nonlinear systems. Automatica, 120, 109155. ZouW., AhnC. K. & XiangZ. (2020). Analysis on existence of compact set in neural network control for nonlinear systems. Automatica, 120, 109155.Search in Google Scholar

Xia, J., Zhang, J., Sun, W., Zhang, B., & Wang, Z. (2018). Finite-time adaptive fuzzy control for nonlinear systems with full state constraints. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 49(7), 1541-1548. XiaJ., ZhangJ., SunW., ZhangB. & WangZ. (2018). Finite-time adaptive fuzzy control for nonlinear systems with full state constraints. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 49(7), 1541-1548.Search in Google Scholar

Yu, J., Zhao, L., Yu, H., Lin, C., & Dong, W. (2017). Fuzzy finite-time command filtered control of nonlinear systems with input saturation. IEEE transactions on cybernetics, 48(8), 2378-2387. YuJ., ZhaoL., YuH., LinC. & DongW. (2017). Fuzzy finite-time command filtered control of nonlinear systems with input saturation. IEEE transactions on cybernetics, 48(8), 2378-2387.Search in Google Scholar

Li, W., & Krstic, M. (2022). Prescribed-time output-feedback control of stochastic nonlinear systems. IEEE Transactions on Automatic Control, 68(3), 1431-1446. LiW. & KrsticM. (2022). Prescribed-time output-feedback control of stochastic nonlinear systems. IEEE Transactions on Automatic Control, 68(3), 1431-1446.Search in Google Scholar

Hua, C., Ning, P., & Li, K. (2021). Adaptive prescribed-time control for a class of uncertain nonlinear systems. IEEE Transactions on Automatic Control, 67(11), 6159-6166. HuaC., NingP. & LiK. (2021). Adaptive prescribed-time control for a class of uncertain nonlinear systems. IEEE Transactions on Automatic Control, 67(11), 6159-6166.Search in Google Scholar

Alsalti, M., Berberich, J., Lopez, V. G., Allgöwer, F., & Müller, M. A. (2021, December). Data-based system analysis and control of flat nonlinear systems. In 2021 60th IEEE Conference on Decision and Control (CDC) (pp. 1484-1489). IEEE. AlsaltiM., BerberichJ., LopezV. G., AllgöwerF. & MüllerM. A. (2021, December). Data-based system analysis and control of flat nonlinear systems. In 2021 60th IEEE Conference on Decision and Control (CDC) (pp. 1484-1489). IEEE.Search in Google Scholar

Wang, L., Wang, H., Liu, P. X., Ling, S., & Liu, S. (2020). Fuzzy finite-time command filtering output feedback control of nonlinear systems. IEEE transactions on fuzzy systems, 30(1), 97-107. WangL., WangH., LiuP. X., LingS. & LiuS. (2020). Fuzzy finite-time command filtering output feedback control of nonlinear systems. IEEE transactions on fuzzy systems, 30(1), 97-107.Search in Google Scholar

Wang, D., He, H., & Liu, D. (2017). Adaptive critic nonlinear robust control: A survey. IEEE transactions on cybernetics, 47(10), 3429-3451. WangD., HeH. & LiuD. (2017). Adaptive critic nonlinear robust control: A survey. IEEE transactions on cybernetics, 47(10), 3429-3451.Search in Google Scholar

Chen, M., Wang, H., & Liu, X. (2019). Adaptive fuzzy practical fixed-time tracking control of nonlinear systems. IEEE Transactions on Fuzzy Systems, 29(3), 664-673. ChenM., WangH. & LiuX. (2019). Adaptive fuzzy practical fixed-time tracking control of nonlinear systems. IEEE Transactions on Fuzzy Systems, 29(3), 664-673.Search in Google Scholar

Sun, Y., Chen, B., Lin, C., & Wang, H. (2017). Finite-time adaptive control for a class of nonlinear systems with nonstrict feedback structure. IEEE transactions on cybernetics, 48(10), 2774-2782. SunY., ChenB., LinC. & WangH. (2017). Finite-time adaptive control for a class of nonlinear systems with nonstrict feedback structure. IEEE transactions on cybernetics, 48(10), 2774-2782.Search in Google Scholar

Yu, J., Chen, B., Yu, H., Lin, C., & Zhao, L. (2018). Neural networks-based command filtering control of nonlinear systems with uncertain disturbance. Information Sciences, 426, 50-60. YuJ., ChenB., YuH., LinC. & ZhaoL. (2018). Neural networks-based command filtering control of nonlinear systems with uncertain disturbance. Information Sciences, 426, 50-60.Search in Google Scholar

Li, Y., Tong, S., Liu, L., & Feng, G. (2017). Adaptive output-feedback control design with prescribed performance for switched nonlinear systems. Automatica, 80, 225-231. LiY., TongS., LiuL. & FengG. (2017). Adaptive output-feedback control design with prescribed performance for switched nonlinear systems. Automatica, 80, 225-231.Search in Google Scholar

Wang, H., Liu, P. X., Zhao, X., & Liu, X. (2019). Adaptive fuzzy finite-time control of nonlinear systems with actuator faults. IEEE transactions on cybernetics, 50(5), 1786-1797. WangH., LiuP. X., ZhaoX. & LiuX. (2019). Adaptive fuzzy finite-time control of nonlinear systems with actuator faults. IEEE transactions on cybernetics, 50(5), 1786-1797.Search in Google Scholar

Soltanpour, M. R., Khooban, M. H., & Khalghani, M. R. (2016). An optimal and intelligent control strategy for a class of nonlinear systems: adaptive fuzzy sliding mode. Journal of Vibration and Control, 22(1), 159-175. SoltanpourM. R., KhoobanM. H. & KhalghaniM. R. (2016). An optimal and intelligent control strategy for a class of nonlinear systems: adaptive fuzzy sliding mode. Journal of Vibration and Control, 22(1), 159-175.Search in Google Scholar

Cheng, C. M., Peng, Z. K., Zhang, W. M., & Meng, G. (2017). Volterra-series-based nonlinear system modeling and its engineering applications: A state-of-the-art review. Mechanical Systems and Signal Processing, 87, 340-364. ChengC. M., PengZ. K., ZhangW. M. & MengG. (2017). Volterra-series-based nonlinear system modeling and its engineering applications: A state-of-the-art review. Mechanical Systems and Signal Processing, 87, 340-364.Search in Google Scholar

Zhang, J. X., Wang, Q. G., & Ding, W. (2021). Global output-feedback prescribed performance control of nonlinear systems with unknown virtual control coefficients. IEEE Transactions on Automatic Control, 67(12), 6904-6911. ZhangJ. X., WangQ. G. & DingW. (2021). Global output-feedback prescribed performance control of nonlinear systems with unknown virtual control coefficients. IEEE Transactions on Automatic Control, 67(12), 6904-6911.Search in Google Scholar

Li, D., & Du, Y. (2017). Artificial intelligence with uncertainty. CRC press. LiD. & DuY. (2017). Artificial intelligence with uncertainty. CRC press.Search in Google Scholar

Martin, T., Schön, T. B., & Allgöwer, F. (2023). Guarantees for data-driven control of nonlinear systems using semidefinite programming: A survey. Annual Reviews in Control, 100911. MartinT., SchönT. B. & AllgöwerF. (2023). Guarantees for data-driven control of nonlinear systems using semidefinite programming: A survey. Annual Reviews in Control, 100911.Search in Google Scholar

Xu, B., & Sun, F. (2017). Composite intelligent learning control of strict-feedback systems with disturbance. IEEE transactions on cybernetics, 48(2), 730-741. XuB. & SunF. (2017). Composite intelligent learning control of strict-feedback systems with disturbance. IEEE transactions on cybernetics, 48(2), 730-741.Search in Google Scholar

Sarangapani, J. (2018). Neural network control of nonlinear discrete-time systems. CRC press. SarangapaniJ. (2018). Neural network control of nonlinear discrete-time systems. CRC press.Search in Google Scholar

Jamshidi, M., Krohling, R. A., Coelho, L. D. S., & Fleming, P. J. (2018). Robust control systems with genetic algorithms. CRC Press. JamshidiM., KrohlingR. A., CoelhoL. D. S. & FlemingP. J. (2018). Robust control systems with genetic algorithms. CRC Press.Search in Google Scholar

Mittal, K., Jain, A., Vaisla, K. S., Castillo, O., & Kacprzyk, J. (2020). A comprehensive review on type 2 fuzzy logic applications: Past, present and future. Engineering Applications of Artificial Intelligence, 95, 103916. MittalK., JainA., VaislaK. S., CastilloO. & KacprzykJ. (2020). A comprehensive review on type 2 fuzzy logic applications: Past, present and future. Engineering Applications of Artificial Intelligence, 95, 103916.Search in Google Scholar

Liu, D., Xue, S., Zhao, B., Luo, B., & Wei, Q. (2020). Adaptive dynamic programming for control: A survey and recent advances. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 51(1), 142-160. LiuD., XueS., ZhaoB., LuoB. & WeiQ. (2020). Adaptive dynamic programming for control: A survey and recent advances. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 51(1), 142-160.Search in Google Scholar

Murray-Smith, R., & Johansen, T. (Eds.). (2020). Multiple model approaches to nonlinear modelling and control. CRC press. Murray-SmithR. & JohansenT. (Eds.). (2020). Multiple model approaches to nonlinear modelling and control. CRC press.Search in Google Scholar

Tianyu Guo, Shengang Li, Bo Lu, Zhiguo Wang, Wenxin Cao & Shuangshuang Liu. (2024). Research on gradual optimization of slurry mixture ratio for shield tunnel backfill grouting based on fuzzy mathematics. Construction and Building Materials 139319-139319. GuoTianyu, LiShengang, LuBo, WangZhiguo, CaoWenxin & LiuShuangshuang. (2024). Research on gradual optimization of slurry mixture ratio for shield tunnel backfill grouting based on fuzzy mathematics. Construction and Building Materials 139319-139319.Search in Google Scholar

Guoqiang Cai & Jiuxiang Dong. (2025). Fault detection observer design for interval type-2 T–S fuzzy systems based on locally optimized membership function-dependent [formula omitted] performance. Journal of the Franklin Institute(2), 107461-107461. CaiGuoqiang & DongJiuxiang. (2025). Fault detection observer design for interval type-2 T–S fuzzy systems based on locally optimized membership function-dependent [formula omitted] performance. Journal of the Franklin Institute(2), 107461-107461.Search in Google Scholar

Ch. Naga Sai Kalyan, Pasala Gopi, Shir Ahmad Dost Mohammadi & Mohit Bajaj. (2024). Hybrid fuzzy PID control with HAEFA optimization for simultaneous voltage and frequency stabilization in multi-area diverse source power systems. Cogent Engineering(1). Sai KalyanCh. Naga, GopiPasala, MohammadiShir Ahmad Dost & BajajMohit. (2024). Hybrid fuzzy PID control with HAEFA optimization for simultaneous voltage and frequency stabilization in multi-area diverse source power systems. Cogent Engineering(1).Search in Google Scholar

Language:
English
Publication timeframe:
1 times per year
Journal Subjects:
Life Sciences, Life Sciences, other, Mathematics, Applied Mathematics, General Mathematics, Physics, Physics, other
Journal RSS Feed