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...
This paper deals with the optimization for performance and cost of the low-power permanent magnet sy...
Magnets placement effects on permanent magnet motors performance, because of its different magnetic ...
This paper proposes a Finite Element (FE)-based multi-objective optimization procedure, under a set ...
Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly eff...
Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly eff...
This paper proposes the design optimization procedure of three-phase interior permanent magnet (IPM)...
When a permanent magnet synchronous motor (PMSM) is designed according to the traditional motor desi...
This research presents a rotor shape multi-level-objective optimization designed to reduce the mecha...
This paper presents a Pareto-optimality-based optimization methodology suitable for the design of el...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
The multiobjective optimization design of interior permanent magnet synchronous motors (IPMSMs) is a...
In this paper, two novel morphing parametric models for flat-to-V-type (FV) and for spoke-to-V-type ...
Performance improvement of permanent magnet (PM) motors through optimization techniques has been wid...
The interior permanent magnet (IPM) motor is normally designed with two or more flux barriers per po...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
This paper deals with the optimization for performance and cost of the low-power permanent magnet sy...
Magnets placement effects on permanent magnet motors performance, because of its different magnetic ...
This paper proposes a Finite Element (FE)-based multi-objective optimization procedure, under a set ...
Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly eff...
Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly eff...
This paper proposes the design optimization procedure of three-phase interior permanent magnet (IPM)...
When a permanent magnet synchronous motor (PMSM) is designed according to the traditional motor desi...
This research presents a rotor shape multi-level-objective optimization designed to reduce the mecha...
This paper presents a Pareto-optimality-based optimization methodology suitable for the design of el...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
The multiobjective optimization design of interior permanent magnet synchronous motors (IPMSMs) is a...
In this paper, two novel morphing parametric models for flat-to-V-type (FV) and for spoke-to-V-type ...
Performance improvement of permanent magnet (PM) motors through optimization techniques has been wid...
The interior permanent magnet (IPM) motor is normally designed with two or more flux barriers per po...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
This paper deals with the optimization for performance and cost of the low-power permanent magnet sy...
Magnets placement effects on permanent magnet motors performance, because of its different magnetic ...
This paper proposes a Finite Element (FE)-based multi-objective optimization procedure, under a set ...