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Multiobjective optimization of IPM synchronous motor using Response Surface Methodology and filtered Monte Carlo approach

机译：基于响应面法和滤波蒙特卡洛方法的IPM同步电动机多目标优化

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Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly effort and hence have been established in a wide market over the past years. Especially buried magnets enable a superior field weakening ability but require an exceptional design effort. Costly Finite Elements computations are inevitable for consideration of the occurring non-linearity and non-trivial magnet shapes. The Response Surface Methodology can reduce the number of FE runs significantly by introducing an acceptably exact second order regression model based on a few carefully chosen design samples. Instead of commonly used, but time-consuming Evolutionary Strategy methods, the Monte Carlo approach is applied for optimization. Using simple filter algorithms, distinctive Pareto frontiers can be determined quickly and related to their causative motor designs.

机译：永磁同步电动机除了需要较少的组装工作量外，还提供了高效率和功率密度，因此在过去的几年中已在广泛的市场中建立起来。尤其是埋入式磁体，具有出色的磁场减弱能力，但需要出色的设计工作。考虑到出现的非线性和非平凡的磁体形状，不可避免地要进行昂贵的有限元计算。通过基于一些精心选择的设计样本引入可接受的精确二阶回归模型，响应曲面方法可以显着减少有限元运行的次数。代替常用但耗时的进化策略方法，将蒙特卡洛方法应用于优化。使用简单的滤波算法，可以快速确定独特的帕累托边界，并将其与引起电动机的设计相关联。

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《International Conference on Electrical Machines》|2014年|1307-1313|共7页
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Seifert R.; Bargallo Perpina R.;
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Monte Carlo methods; evolutionary computation; finite element analysis; optimisation; permanent magnet motors; regression analysis; response surface methodology; synchronous motors; FEA; IPM synchronous motor; buried magnets; causative motor designs; costly finite element computations; distinctive Pareto frontiers; evolutionary strategy methods; exact second order regression model; field weakening ability; filter algorithms; filtered Monte Carlo approach; multiobjective optimization; nontrivial magnet shapes; permanent magnet synchronous motors; power density; response surface methodology; Analytical models; Magnetic circuits; Magnetic flux; Optimization; Response surface methodology; Stators; Torque; FE methods; IPM; Optimization and Pareto frontiers; Response Surface Methodology;

机译：蒙特卡罗方法;演化计算;有限元分析;优化;永磁电动机;回归分析;响应面方法;同步电动机; FEA; IPM同步电动机;埋入磁铁;有因电动机设计;昂贵的有限元计算;独特的帕累托边界;演化策略方法;精确的二阶回归模型;弱磁场能力;滤波算法;滤波的蒙特卡洛方法;多目标优化;非平凡的磁体形状;永磁同步电动机;功率密度;响应面方法;分析模型;磁路;磁通量;优化响应面方法定子转矩FE方法IPM优化和帕累托边界响应面方法;

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Multiobjective optimization of IPM synchronous motor using Response Surface Methodology and filtered Monte Carlo approach

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