This paper proposes a new multi-objective optimization approach to investigate the feasibility of 12/10 variable flux reluctance machines for heavy-duty applications requiring a high-torque generation. Eight parameters describing the geometry of the variable flux reluctance machine are optimized by the tournament selection-based genetic algorithm aiming at the minimum torque ripple, maximum torque density, and efficiency. A 2-D magnetostatic finite element method model is coupled with the nonlinear single-valued magnetization curve of the soft-magnetic material to calculate the objective function. Boundaries of the optimization variables are determined by scaling an existing design. Two constraints are introduced for the winding temperature...
Lowering the gear reduction in actuators by utilizing high-torque low-speed motors enables the use o...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
The primary objective for this paper is to create a methodology to rapidly optimize double-stators s...
This paper proposes a new multi-objective optimization approach to investigate the feasibility of 12...
This paper introduces comparison of optimization algorithms applied on high-torqueferrite-assisted s...
This paper analyzes the impact of the flux barriers (FB) type and their parameterization on the torq...
As one of the crucial components for electric vehicles, the electric machine has been widely examine...
In this paper, a thorough framework for multiobjective design optimization of switched reluctance mo...
The work is concerned with studies of a novel form of electric machine, the variable reluctance perm...
This paper proposes an optimal design for a salient pole wound field synchronous machine (WFSM) with...
This paper proposes a design process of permanent magnet assisted synchronous reluctance motors (PMa...
This article presents a comprehensive comparative study between two variable flux reluctance machine...
Lowering the gear reduction in actuators by utilizing high-torque low-speed motors enables the use o...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
The primary objective for this paper is to create a methodology to rapidly optimize double-stators s...
This paper proposes a new multi-objective optimization approach to investigate the feasibility of 12...
This paper introduces comparison of optimization algorithms applied on high-torqueferrite-assisted s...
This paper analyzes the impact of the flux barriers (FB) type and their parameterization on the torq...
As one of the crucial components for electric vehicles, the electric machine has been widely examine...
In this paper, a thorough framework for multiobjective design optimization of switched reluctance mo...
The work is concerned with studies of a novel form of electric machine, the variable reluctance perm...
This paper proposes an optimal design for a salient pole wound field synchronous machine (WFSM) with...
This paper proposes a design process of permanent magnet assisted synchronous reluctance motors (PMa...
This article presents a comprehensive comparative study between two variable flux reluctance machine...
Lowering the gear reduction in actuators by utilizing high-torque low-speed motors enables the use o...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
The primary objective for this paper is to create a methodology to rapidly optimize double-stators s...