Scientific Computing in Electrical Engineering : SCEE 2020, Eindhoven, The Netherlands, February 2020 / edited by Martijn van Beurden, Neil Budko, Wil Schilders.

Format:

Book

Contributor:

Beurden, Martijn van, editor.

Budko, Neil, editor.

Schilders, Wil, editor.

Series:

The European Consortium for Mathematics in Industry, 2946-1871 ; 36

Language:

English

Subjects (All):

Differential equations.

Geometrical optics.

Wave theory of light.

Differential Equations.

Classical Optics, Geometric and Wave optics.

Local Subjects:

Differential Equations.

Classical Optics, Geometric and Wave optics.

Physical Description:

1 online resource (305 pages)

Edition:

1st ed. 2021.

Place of Publication:

Cham : Springer International Publishing : Imprint: Springer, 2021.

Summary:

The conference has an interdisciplinary focus and aims to bring together scientists – mathematicians, electrical engineers, computer scientists, and physicists, from universities and industry – to have in-depth discussions of the latest scientific results in Computational Science and Engineering relevant to Electrical Engineering and to stimulate and inspire active participation of young researchers.

Contents:

Part I Circuit Simulation and Design

Efficient model reduction of myelinated compartments as port-Hamiltonian systems

Towards a Parallel-in-Time Calculation of Time-Periodic Solutions with Unknown Period

On the Exactness of Rational Polynomial Chaos Formulation for the Uncertainty Quantification of Linear Circuits in the Frequency Domain

Parallel-in-Time Simulation of Power Converters Using Multirate PDEs

Part II Device Simulation

A Maximum Principle for Drift-Diffusion Equations and the Scharfetter-Gummel Discretization

Numerical calculation of electronic properties of transition metal-doped mWS2 via DFT

Numerical simulation of thermal conductivity of silicon nanowires

A Novel Surface Mesh Simplification Method for Flux-Dependent Topography Simulations of Semiconductor Fabrication Processes

Simulations of a novel DG-GFET

Part III Computational Electromagnetics

Electric Circuit Element Boundary Conditions in the Finite Element Method for Full-Wave Frequency Domain Passive Devices

A convolution quadrature method for Maxwell’s equations in dispersive media

On the stability of harmonic coupling methods with application to electric machines

Dielectric Breakdown Prediction with GPU-Accelerated BEM

Empirical Analysis of a Coaxial Microwave Structure with Finite Transmission Zero

Frequency-domain non-intrusive greedy Model Order Reduction based on minimal rational approximation

A Comparison Between Different Formulations for Solving Axisymmetric Time-Harmonic Electromagnetic Wave Problems

The Magnetization Analysis of Motor Magnet and its Influence on Cogging Torque

Part IV Mathematical and Computational Methods

A Combination of Model Order Reduction and Multirate Techniques for Coupled Dynamical Systems

Waveform relaxation for low frequency coupled field/circuit differential-algebraic models of index 2

Splitting Methods for Linear Circuit DAEs of Index 1 in port-Hamiltonian Form

Reduced order modelling for wafer heating with the Method of Freezing

Multirate DAE-Simulation and its Application in System Simulation Software for the Development of Electric Vehicles

A hysteresis loss model for Tellinen’s scalar hysteresis model

Hybrid Modeling: Towards the Next Level of Scientific Computing in Engineering

Machine Learning for Initial Value Problems of Parameter-Dependent Dynamical Systems

Modeling of Thermoelectric Generator via Parametric Model Order Reduction Based on Modified Matrix Interpolation

Nonlinear Model Order Reduction of a Thermal Human Torso Model

Multi-Level Iterations for Microgrid Control with Automatic Level Choice

Multi-Level Inversion Based On Mesh Decoupling.

Other Format:

Print version: van Beurden, Martijn Scientific Computing in Electrical Engineering

ISBN:

3-030-84238-X