Course: 2022/2023

Fundamentals on computational electromagnetism apllied to communications II

(18621)

The complexity of real communication systems requires from software tools being able to predict the behavior of different components and subsystems. The student will have a global vision about the main computational methodologies on which commercial software are based on, i.e., electromagnetic solvers.
The specific competences that will be obtained by the students are:
- Choosing the proper electromagnetic solver for each application
- Getting the know how about the mathematical modelling and numerical implementation in electromagnetic solvers.
- Knowing the computational skills in different platforms.
- Basic knowledge about HPC in computational electromagnetism

Skills and learning outcomes

Description of contents: programme

Practical exercise of coding about any of the following topics (Fundamentals on Computational Electromagnetics Applied to Communications I):
Lesson 0: Introduction to electromagnetic solvers.
Lesson 1: Electromagnetic mathematical modelling. Differential an integral approaches.
Lesson 2: Finite elements method, Finite differences methods, Moment method. Asymptotic techniques applied to high frequency.
Lesson 3: Implementation. Computational issues.
Lesson 4: Applications: waveguides, transmission lines, passive circuits, antennas, on board antennas, radar cross section, electromagnetic compatibility.
Lesson 5: High performance computing. Architectures and software programming MPI, OpenMP, GPUs)

Assessment System

- % end-of-term-examination 0
- % of continuous assessment (assigments, laboratory, practicals...) 100

Basic Bibliography

- A. F. Peterson, S. L. Ray, and R. Mittra. Computational Methods for Electromagnetics. IEEE Press. 1998
- D. B. Davidson. Computational Electromagnetics for RF and Microwave Engineering. Cambridge University Press. 2010
- M. N. O. Sadiku. Numerical Techniques in Electromagnetics with MATLAB. CRC press. 2009

Additional Bibliography

- A. K. Bhattacharyya. High-Frequency Electromagnetic Techniques. John Wiley & Sons, Inc.. 1995
- C. A. Balanis. Advanced Engineering Electromagnetics. John Wiley & Sons Inc.. 1989
- J. L. Volakis, A. Chatterjee, and L. C. Kempel. Finite Element Method for Electromagnetics. IEEE Press. 1998
- J. M. Jin. The Finite Element Method in Electromagnetics. John Wiley & Sons, Inc.. 2002
- J. M. Jin and D. J. Ryley. Finite Element Analysis of Antennas and Arrays. Wiley-IEEE Press. 2009
- M. Salazar-Palma, T. K. Sarkar, L. E. Garcia-Castillo, T. Roy, and A. R. Djordjevic. Iterative and Self-Adaptive Finite-Elements in Electromagnetic Modeling. Artech House Publishers, Inc.. 1998
- R. F. Harrington. Time Harmonic Electromagnetic Fields. McGraw-Hill, Inc.. 1961

The course syllabus may change due academic events or other reasons.