The course aims to give the student an appreciation
of the uses and limitations of frequency domain computational techniques
applied to scattering and antenna problems. The module gives the
student a thorough background in the methodology of these techniques
from a fundamental standpoint, while giving a grasp of the practical
applications. Emphasis will be given to the practical problems
encountered in the implementation of the integral equation techniques
(Method of Moments, linear systems, integration techniques, Green's
functions, stratified media, convergence, singularities, periodic
problems). Simple problems are considered to give an understanding of
how the choices made in designing the algorithms translate into the real
strengths and limitations of the software.
- Introduction to Frequency Domain Techniques – A. Freni (UNIFI)
on frequency domain methods. Mathematical
aspects common to any frequency domain method. Review of basics of linear
- Introduction to the Method of Moments
– Z. Sipus (UNIZAG)
of Moment Method programs. Examples of development of Moment Method codes (thin
wire antennas, slot antennas). Scattering from metallic objects. Body of
Revolution problems. Analysis of lenses and focalizing structures.
- Mixed Potential formulations of some integral equations in
Electromagnetics – J. Mosig (EPFL)
equations for electrostatics problems in free space. Mixed potentials for
electrodynamics (full-wave) problems: vector and scalar potential. The Mixed
Potential Integral Equation (MPIE) and its associated Green's functions. Method of Moments (MoM) implementations
of the MPIE. Multilayered media: The spectral domain. Associated Green's
functions as Sommerfeld integrals.
- Periodic stuctures – A. Skrivervik (EPFL)Definition
of a periodic structure and examples of applications, eg. arrays, frequency
selective surfaces and metamaterials. Periodic Green's functions in space and
spectral domains. Grating lobes and blind spots. Convergence issues.
|Course schedule: 25 hours
Basic electromagnetic theory, Basic
Student grant information:
CST Computer Simulation Technology AG and IDS Ingegneria Dei Sistemi S.p.A will offer course registration fees to students from non-profit
institutions. For further information see 2017-Grant_Rules.pdf file at
the end of this page.
The course gives 2 ECTS credits
How to reach:
Please click <here> for details on how to get to the course location
Accommodation is not included in the course fee.
To receive further information you can e-mail to firstname.lastname@example.org
Prof. Angelo Freni, University of Florence, Florence, Italy.
Juan R. Mosig, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.