Authors:
Anupama Subhadarsini,Babita Panda,Byamakesh Nayak,DOI NO:
https://doi.org/10.26782/jmcms.2025.10.00004Keywords:
CMBO-HFF-2DoF-FOTIDC,CMBO,RLC,robustness,15L-SMMI,RPPPWM,Abstract
This manuscript aims to formulate an innovative approach based on Cat Mouse Based Optimization (CMBO) integrated with a Hybrid Fast Fuzzy-2-Degree-of-Freedom Fractional-Order Tilt Integral Derivative Controller (CMBO-HFF-2DoF-FOTIDC) aimed at enhancing the performance of Grid-Interfaced Solar Inverter Systems (GISIS) while reducing total harmonic distortion. The proposed solar inverter system comprises several elements, including a photovoltaic array, a Relift Luo Converter (RLC), and a 15-Level Switch-Minimized Multilevel Inverter (15L-SMMI), alongside the CMBO-HFF-2DoF-FOTIDC controller. The choice of the RLC over the others from the category stems from its capability to mitigate parasitic capacitance effects, achieve high efficiency, increase power density, reduce ripple voltage magnitude, and lower duty cycle requirements. This control strategy employs a fuzzy-logic-based, optimized 2DoF fractional-order tilt integral derivative controller (2DoF-FOTIDC). The CMBO algorithm optimizes the controller's parameters. Comparative analysis of the CMBO-HFF-2DoF-FOTIDC controller with other state-of-the-art controllers demonstrates its superior performance and effectiveness. Additionally, the manuscript explores the implementation of the Random Pulse Position Pulse Width Modulation (RPPPWM) method alongside the proposed approach. The proposed GISIS aims to address harmonic distortions reduction, alongside improvements in the performance of the solar inverter, robustness, stability, and enhanced capabilities to deal with system uncertainties.Refference:
I. Abualigah, L., & Gandomi, A. H. Aquila optimizer: a novel meta-heuristic optimization algorithm. Computers & Industrial Engineering, 157(1), 1–25. 2021.
II. Andela, M., & Salkuti, S. R. Solar GISIS-based reduced switch multilevel inverter for improved power quality. Clean Technologies, 4(1), 1–13. 2022.
III. Dheeban, S. S., & Krishnaveni, L. Performance improvement of Photo-Voltaic panels by Super-Lift Luo converter in standalone application. Materials Today: Proceedings, 37(1), 1163–1171. 2021.
IV. Guohua, L., & Feng, L. Single-Phase Voltage Source Multi-Level Inverter Hysteresis RPPPWM Reconfigurable Fault-Tolerant Control Method. Energies, 15(7), 2557. 2022.
V. Lin, H., He, X., et al. A Simplified 3-D NLM-Based RPPPWM Technique With Voltage-Balancing Capability for 3LNPC Cascaded Multilevel Converter. IEEE Transactions on Power Electronics, 35(4), 3506–3518. 2020.
VI. Logasri, R. Study on Performance Analysis of Luo Converter with Fuzzy Controller. Turkish Journal of Computer and Mathematics Education (TURCOMAT), 12(9), 2793–2798. 2021.
VII. Logeswaran, T., Senthilkumar, A., & Karuppusamy, P. Adaptive neuro-fuzzy model for Grid-Interfaced GISIS. International Journal of Fuzzy Systems, 17(4), 585–594. 2015.
VIII. Nguyen, P. C., & Nguyen, D. T. A new decentralized space vector PWM method for multilevel single-phase full bridge converters. Energies, 15(3), 1010. 2022.
IX. Palanisamy, R., & Vijayakumar, V. Artificial neural network based RPPPWM for five level cascaded H-bridge inverter fed grid connected PV system. Journal of Intelligent and Fuzzy Systems, 39(6), 8453–8462. 2020.
X. Patra, A. K., & Nanda, A. Implantable Insulin Delivery System Based on the Genetic Algorithm PI Controller (GA-PIC). In Advances in Intelligent Computing and Communication (pp. 243–252). Springer, Singapore. 2021.
XI. Patra, A. K., & Rath, D. Design of PV System based on 3-Degree of Freedom Fractional Order Tilt-Integral-Derivative Controller with Filter. J. Inst. Eng. India Ser. B, 103(1), 1533–1548. 2022.
XII. Patra, A. K., & Rout, P. K. Design of artificial pancreas based on the SMGC and self-tuning PI control in type-I diabetic patient. International Journal of Biomedical Engineering and Technology, 32(1), 1–35. 2020.
XIII. Rai, A., & Das, D. K. The development of a fuzzy tilt integral derivative controller based on the sailfish optimizer to solve load frequency control in a microgrid incorporating energy storage systems. Journal of Energy Storage, 48(1), 1–30. 2022.
XIV. Rath, D., Kar, S., & Patra, A. K. Harmonic Distortion Assessment in the Single-Phase Photovoltaic (PV) System Based on SPWM Technique. Arab Journal of Science and Engineering, 46(4), 9601–9615. 2021.
XV. Rezaei, M. A., & Khooban, M. H. A New Hybrid Cascaded Switched-Capacitor Reduced Switch Multilevel Inverter for Renewable Sources and Domestic Loads. IEEE Access, 10(1), 14157–14183. 2022.
XVI. Singh, A., & Udhayakumar, R. Asymptotic stability of fractional order (1, 2] stochastic delay differential equations in Banach spaces. Chaos, Solitons & Fractals, 150(1), 111095. 2021.
XVII. Wang, P., & Montanari, G. C. Considering the Parameters of Pulse Width Modulation Voltage to Improve the Signal-to-Noise Ratio of Partial Discharge Tests for Inverter-Fed Motors. IEEE Transactions on Industrial Electronics, 69(5), 4545–4554. 2021.