Saiful Islam Tuhin | Bangladesh University of Business and Technology (BUBT) (original) (raw)
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Papers by Saiful Islam Tuhin
Journal of Electronics, Computer Networking and Applied Mathematics, 2024
This research paper investigates the major issue of power transmission line faults in electrical ... more This research paper investigates the major issue of power transmission line faults in electrical engineering. Through advanced simulation tools such as MATLAB and ETAP, the study aims to comprehensively analyze various fault circumstances, including symmetrical and unsymmetrical faults, to determine fault Kilovolt Ampere (KVA) or Megavolt Ampere (MVA). Through detailed fault analysis, insights are sought into improving the reliability and efficiency of power transmission networks, consequently minimizing risks of property damage, casualties, and economic disruptions.
International Journal of Innovative Science and Research Technology, 2023
This research paper thoroughly investigates the performance characteristics of PID, which stands ... more This research paper thoroughly investigates the performance characteristics of PID, which stands for Proportional-Integral-Derivative, ANFIS, an acronym for Adaptive-Neuro-Fuzzy Inference System, and ANN (Artificial-Neural-Network) controllers in Automatic Voltage Regulator (AVR) systems. This investigation aims to analyze the controller's behavior so that it can be used in any of the other control systems in the power system. Leveraging the power of MATLAB-SIMULINK, the PID controller undergoes meticulous tuning, while the ANFIS and ANN controllers are trained using meticulously curated data from the PID controller. The results exhibit the ANFIS controller's remarkable dominance, showcasing an awe-inspiring performance with an impressively swift settling time of 2.4404 and seconds impeccable 0% overshoot. Although the ANN controller exhibits a reduction in overshoot compared to the PID controller, it falls short with a lengthier settlingtime. Based on this comprehensive analysis, it is unequivocally established that the ANFIS controller reigns supreme, closely trailed by the ANN controller and the PID controller. These findings offer profound insights for researchers and practitioners, guiding them in the astute selection of controllers for any control system.
Journal of Electronics, Computer Networking and Applied Mathematics, 2024
This research paper investigates the major issue of power transmission line faults in electrical ... more This research paper investigates the major issue of power transmission line faults in electrical engineering. Through advanced simulation tools such as MATLAB and ETAP, the study aims to comprehensively analyze various fault circumstances, including symmetrical and unsymmetrical faults, to determine fault Kilovolt Ampere (KVA) or Megavolt Ampere (MVA). Through detailed fault analysis, insights are sought into improving the reliability and efficiency of power transmission networks, consequently minimizing risks of property damage, casualties, and economic disruptions.
International Journal of Innovative Science and Research Technology, 2023
This research paper thoroughly investigates the performance characteristics of PID, which stands ... more This research paper thoroughly investigates the performance characteristics of PID, which stands for Proportional-Integral-Derivative, ANFIS, an acronym for Adaptive-Neuro-Fuzzy Inference System, and ANN (Artificial-Neural-Network) controllers in Automatic Voltage Regulator (AVR) systems. This investigation aims to analyze the controller's behavior so that it can be used in any of the other control systems in the power system. Leveraging the power of MATLAB-SIMULINK, the PID controller undergoes meticulous tuning, while the ANFIS and ANN controllers are trained using meticulously curated data from the PID controller. The results exhibit the ANFIS controller's remarkable dominance, showcasing an awe-inspiring performance with an impressively swift settling time of 2.4404 and seconds impeccable 0% overshoot. Although the ANN controller exhibits a reduction in overshoot compared to the PID controller, it falls short with a lengthier settlingtime. Based on this comprehensive analysis, it is unequivocally established that the ANFIS controller reigns supreme, closely trailed by the ANN controller and the PID controller. These findings offer profound insights for researchers and practitioners, guiding them in the astute selection of controllers for any control system.