Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerical analysis have improved vastly. The 3D analysis of electrostatic and magnetostatic fields can easily be carried out on a workstation, and results obtained contribute to the design and development of new products. The main factors of progress in numerical analysis using the finite-element method are reviewed.</p
Modelling of realistic electromagnetic problems is presented by partial differential equations (FDEs...
The paper reviews the state of the art in modern field simulation techniques available to assist in ...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerica...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
The paper provides an overview of the modern field simulation techniques available to assist in the ...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
Finite Element Method has been proved as valuable tool for solving different electromagnetic problem...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
In this paper, an evaluation of the methods of finite elements and finite differences, as applied to...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
The paper provides an overview of the modern field simulation techniques available to assist in the ...
In order to evaluate the most suitable method of analysis (A- phi or T- Omega method) and finite ele...
Computational Electromagnetics is a young and growing discipline, expanding as a result of the stead...
Modelling of realistic electromagnetic problems is presented by partial differential equations (FDEs...
The paper reviews the state of the art in modern field simulation techniques available to assist in ...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
Over the past ten years, the ability of computers has progressed rapidly, and techniques of numerica...
A method for analyzing 3-D magnetic fields and currents in electrical machines excited from voltage ...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
The paper provides an overview of the modern field simulation techniques available to assist in the ...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
Finite Element Method has been proved as valuable tool for solving different electromagnetic problem...
The paper discuses the numerical methods of electromagnetic field calculations in the electric machi...
In this paper, an evaluation of the methods of finite elements and finite differences, as applied to...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
The paper provides an overview of the modern field simulation techniques available to assist in the ...
In order to evaluate the most suitable method of analysis (A- phi or T- Omega method) and finite ele...
Computational Electromagnetics is a young and growing discipline, expanding as a result of the stead...
Modelling of realistic electromagnetic problems is presented by partial differential equations (FDEs...
The paper reviews the state of the art in modern field simulation techniques available to assist in ...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...