This paper presents a new topology optimization of interior permanent magnet (IPM) motors using the genetic algorithm with aid of the deep leaning. The data composed of the rotor shape of an IPM motor and its performance, obtained by a prior topology optimization process, is input to a convolutional neural network (CNN). After the learning process, CNN is shown to provide fairly accurate estimate of the motor performance. During the posterior topology optimization, the finite element analysis (FEA) is carried out only for the limited number of individuals; probability that FEA is performed increases with the motor performance evaluated by CNN. It is shown that the computing time is reduced to about 1/10 without deterioration of the optimiza...
Physics-Informed Neural Networks (PINNs) have recently gained increasing attention in the field of t...
In this work a novel approach is presented for topology optimization of low frequency electromagneti...
In this paper, a shape optimization for efficiency improvement of an interior permanent magnet (IPM)...
This paper presents the fast topology optimization methods for rotating machines based on deep learn...
This paper proposes a new method for accurately predicting rotating machine properties using a deep ...
Permanent magnet synchronous motors are increasingly used in the oil industry. These motors need to ...
In this study, we propose a fast topology optimization (TO) method based on a deep neural network (D...
This paper explores some design parameters of an interior permanent magnet synchronous motor that co...
This paper is regarding to the design transformation methodology from induction motor (IM) to interi...
The development of the interior permanent magnet synchronous motor has drawn a big interest over the...
Topology optimization is a computationally expensive process, especially when complicated designs ar...
AbstractThis paper develops a high performance PI based controller for an Interior Permanent Magnet ...
An artificial neural network (ANN) for online tuning of a genetic algorithm based PI controller for ...
A novel hybrid genetic algorithm (HGA) is proposed to optimize the rotor structure of an IPM machine...
This paper presents a Pareto-optimality-based optimization methodology suitable for the design of el...
Physics-Informed Neural Networks (PINNs) have recently gained increasing attention in the field of t...
In this work a novel approach is presented for topology optimization of low frequency electromagneti...
In this paper, a shape optimization for efficiency improvement of an interior permanent magnet (IPM)...
This paper presents the fast topology optimization methods for rotating machines based on deep learn...
This paper proposes a new method for accurately predicting rotating machine properties using a deep ...
Permanent magnet synchronous motors are increasingly used in the oil industry. These motors need to ...
In this study, we propose a fast topology optimization (TO) method based on a deep neural network (D...
This paper explores some design parameters of an interior permanent magnet synchronous motor that co...
This paper is regarding to the design transformation methodology from induction motor (IM) to interi...
The development of the interior permanent magnet synchronous motor has drawn a big interest over the...
Topology optimization is a computationally expensive process, especially when complicated designs ar...
AbstractThis paper develops a high performance PI based controller for an Interior Permanent Magnet ...
An artificial neural network (ANN) for online tuning of a genetic algorithm based PI controller for ...
A novel hybrid genetic algorithm (HGA) is proposed to optimize the rotor structure of an IPM machine...
This paper presents a Pareto-optimality-based optimization methodology suitable for the design of el...
Physics-Informed Neural Networks (PINNs) have recently gained increasing attention in the field of t...
In this work a novel approach is presented for topology optimization of low frequency electromagneti...
In this paper, a shape optimization for efficiency improvement of an interior permanent magnet (IPM)...