Examination
Examination
To complete the course with the grade 3, the student must complete 1) the electronic quizzes, 2) the handins, and 3) a written report and oral presentation for the project. For a higher grade (4 or 5), the student must also pass an oral exam.
1. Electronic quizzes
Simple, concept-oriented questions are given every week on the web site moodle.eit.lth.se. You log in using your STIL or LUCAT identity. Contact Daniel if you experience difficulties.
2. Handins
Two handins will be distributed, one at the end of week 1 and one in week 3. They should be completed within a week.
- Handin 1 [Link has been deactivated]
- Handin 2 [Link has been deactivated]
3. Project
The main examination of the course is through a project, where you analyze an advanced wave propagation problem with modern methods taught in the course.
- Project proposals. [Link has been deactivated]
The project presentations are on Friday October 19, 8-10, in E:2349. Other deadlines are (note you do not have to wait to the last minute, you may finish the task before deadline):
- Monday Oct 8: Submit a short abstract describing how you interpret the project, and your strategy to do it. Do this in the moodle system.
- Tuesday evening Oct 16: Send your draft report to the group appointed as reviewers (see below).
- Friday Oct 19: Send your comments to the group whose report you have reviewed (preferably by giving them an annotated copy at the presentation). Focus on constructive comments: what is good (and why), what can be made better (and how).
- Monday Oct 22: After revising the report according to comments from your reviewers and at the presentation, submit your final report in the moodle system.
Your presentation should be around 10 minutes, followed by around 5 minutes of questions. You will be given feedback forms, in which you can give your fellow students constructive comments on their presentation. Create a presentation in pdf-format using LaTeX, OpenOffice/LibreOffice, or Powerpoint. A LaTeX template using beamer can be downloaded here, and a PowerPoint template (which works also in OpenOffice/LibreOffice) can be downloaded from the Lund University web site here.
Some points to consider for your presentation:
- State the problem clearly, the others who are listening have not seen much of it. Give some examples of applications.
- Explain your method of solution, important approximations. Do not rely too much on equations, use words and figures as well.
- Present and discuss your results. Make suitable graphs, and explain clearly what is plotted.
- About 8 slides in total should be enough.
Remember to use large enough fonts so that people in the audience have a fair chance of seeing. This applies also to the graphs.
The project presentations have been planned as follows (the number in parentheses indicate which project each group is assigned to):
Thursday Oct 18, 15-17, E:2349
Presenter | Opponent |
Casimir Ehrenberg, Pukashawar Pannu (6) | Jonas Munck, Fredrik Fryklund (2) |
Jack Berg, David From (4) | Fredrik Löfberg, Farhad Shokraneh, Johnny Sjöberg (1) |
Mathieu Istas, Teodor Strömberg (1) | Vilhelm Frändberg, Robin Ekelund (6) |
Andrée Bengtsson, Ahmed Almuqayad (7) | Anna Persson, Teresia Olsson, Ellinor Persson (5) |
Friday Oct 19, 8-10, E:2349
Presenter | Opponent |
Vilhelm Frändberg, Robin Ekelund (6) | Haiyan Xie, Lovisa Senje (3) |
Anna Persson, Teresia Olsson, Ellinor Persson (5) | Mathieu Istas, Teodor Strömberg (1) |
Haiyan Xie, Lovisa Senje (3) | Andrée Bengtsson, Ahmed Almuqayad (7) |
Fredrik Löfberg, Farhad Shokraneh, Johnny Sjöberg (1) | Casimir Ehrenberg, Pukashawar Pannu (6) |
Jonas Munck, Fredrik Fryklund (2) | Jack Berg, David From (4) |
4. Oral exam
If you want a higher grade (4 or 5), an oral exam is offered. During this you will be asked questions that require you to connect different concepts and themes of the course, where the focus is not detailed formulas but rather how to apply and interpret what you learned in the course. Typically, I will show slides from the lectures or projects and ask you to explain how different wave propagation concepts can be used in that situation. The aim is for around 20-30 minutes.