Muhammad Agil Haikal, Machrus Ali, Irrine Budi S, Faridah Hanim Mohd Noh
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引用次数: 0
摘要
永磁同步电机利用法拉第实验的原理,利用另一种能量源旋转线圈中的磁铁。当磁体在线圈中移动时,反之亦然。机器的旋转将改变线圈上的磁力通量,并垂直穿透线圈,因此线圈两端之间产生电位差。它是由磁通量的变化引起的。萤火虫算法(FA)方法已被证明是克服系统优化问题的成功方法。对FA进行改造有望提高其FA的性能。为了获得最佳控制方法,需要改变速度控制模型。本研究比较无控制器、PID控制、PID- fa和PID- fa - anfis的永磁同步电机速度控制。仿真结果表明,PID-FA-ANFIS控制器上最接近转速Reff (2980 rpm)的最佳模型是PID-FA-ANFIS获得的下突最小、稳态最快、输出电流曲线最佳、转矩曲线最佳和应力曲线最佳的旋转曲线。这项研究的结果将被用于人工智能的其他用途。
Hybrid Method for Optimization of Permanent Magnet Synchronous Machine (PMSM) Rotation using FA-ANFIS
PMSM uses the principle of Faraday's experiment by rotating a magnet in a coil by utilizing another energy source. When the magnet moves in the coil or vice versa. The rotation of the machine will change the flux of magnetic force on the coil and penetrate perpendicularly to the coil so that a potential difference arises between the ends of the coil. It is caused by a change in magnetic flux. The Firefly Algorithm (FA) method has been proven successful in overcoming system optimization problems. Modifying the FA is expected to improve its performance of the FA. To get the best control method, it is necessary to vary the speed control model. This study compares the PMSM speed control without a controller, PID Control, PID-FA, and PID-FA-ANFIS. The simulation results show that the best model on the PID-FA-ANFIS controller which is closest to the Speed Reff (2980 rpm) is that PID-FA-ANFIS obtains a rotation profile with the smallest undershot, the fastest steady state, the best output current profile, the best torque profile, and the best stress profile. The results of this study will be followed by other uses of artificial intelligence.
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