SMOGN,MFO,and XGBoost Based Excitation Current Prediction Model for Synchronous Machine  

作　　者：Ping-Huan Kuo Yu-Tsun Chen Her-Terng Yau 

机构地区：[1]Department of Mechanical Engineering,National Chung Cheng University,Chiayi,62102,Taiwan,China [2]Advanced Institute of Manufacturing with High-Tech Innovations(AIM-HI),National Chung Cheng University,Chiayi,62102,Taiwan,China

出　　处：《Computer Systems Science & Engineering》2023年第9期2687-2709,共23页计算机系统科学与工程（英文）

基　　金：This work was supported by the Ministry of Science and Technology,Taiwan,under Grants MOST 110-2221-E-194-037,NSTC 111-2823-8-194-002,111-2221-E-194-052 and 11-2218-E-194-007。

摘　　要：The power factor is the ratio between the active and apparent power,and it is available to determine the operational capability of the intended circuit or the parts.The excitation current of the synchronous motor is an essential parameter required for adjusting the power factor because it determines whether the motor is under the optimal operating status.Although the excitation current should predict with the experimental devices,such a method is unsuitable for online real-time prediction.The artificial intelligence algorithm can compensate for the defect of conventional measurement methods requiring the measuring devices and the model optimization is compared during the research process.In this article,the load current,power factor,and power factor errors available in the existing dataset are used as the input parameters for training the proposed artificial intelligence algorithms to select the optimal algorithm according to the training result,for this algorithm to have higher accuracy.The SMOGN(Synthetic Minority Over-Sampling Technique for Regression with Gaussian Noise)is selected for the research by which the data and the MFO(Moth-flame optimization algorithm)are created for the model to adjust and optimize the parameters automatically.In addition to enhancing the prediction accuracy for the excitation current,the automatic parameter adjusting method also allows the researchers not specializing in the professional algorithm to apply such application method more efficiently.The final result indicated that the prediction accuracy has reached“Mean Absolute Error(MAE)=0.0057,Root Mean Square Error(RMSE)=0.0093 andR2 score=0.9973”.Applying this method to themotor control would be much easier for the power factor adjustment in the future because it allows the motor to operate under the optimal power status to reduce energy consumption while enhancing working efficiency.

关 键 词：Synchronous machine power factor excitation current active power apparent power 

分 类 号：TM331[电气工程—电机]