5.00 credits
30.0 h + 22.5 h
Q2
Teacher(s)
Craeye Christophe (coordinator); Lederer Dimitri; Vandendorpe Luc;
Language
French
Prerequisites
This project supposes acquired the notions developed in the courses LEPL1106 and LEPL1755.
Main themes
The project is linked to the courses of the major orientation ELEC: devices and electronic circuits, telecommunication, electromagnetism, automatic, control of electrical systems.
Examples of systems and existing data will be chosen among information systems, electrical transducers, spectral analysis of real signals including noise, hardware (circuits and systems) and software implementation(signal processing, real time), etc.
Examples of systems and existing data will be chosen among information systems, electrical transducers, spectral analysis of real signals including noise, hardware (circuits and systems) and software implementation(signal processing, real time), etc.
Learning outcomes
At the end of this learning unit, the student is able to : | |
| 1 |
Contribution of the course to the program objectives
Regarding the learning outcomes of the program of Bachelor in Engineering, this course contributes to the development and the acquisition of the following learning outcomes:
The skills addressed by « Project 4 » include on one hand transverse skills, common to all projects 4, and on the other hand disciplinary, technical skills that are specific to each engineering specialty. Transversal learning outcomes: Projects 4 aim at providing students with transversal skills close to the practice of engineering jobs within a multi-disciplinary context :
Disciplinary learning outcomes: At the end of the course, students will have increased their knowledge in
|
Content
The project consists of several steps:
- Discover and understand the functioning of a an ultra-wideband positioning system
- Discover and understand a technique for the estimation of time-difference of arrival based on mesurements obtained with a multiple-antenna receiver
- Get familiar with circuits using a reconfigurable equipment, with access to the raw data.
- Use concepts concerning antennas and scattering, with access to raw data.
- Extend the analysis to the study of transmission of message encoded through pulse modulation, etc.
- Carry out an experimental validation using equipment available in the laboratory.
- Describe precisely, in written or oral form, the concepts, methods and obtained results
Teaching methods
- 1 initial homework (not marked)
- 3 milestones (intermediate reports)
- 2 supervised labs
- A “challenge” activity following goals that are essentially defined by the students et making use of experimental demonstration platforms
- A written report and a final presentation (+ individual exam; see evaluation)
Evaluation methods
In the framework of the course, the students will be evaluated through:
- A continuous evaluation of the 3 milestones (small mark)
- A written individual exam during exam session
- 3/4 of mark if individual exam yields >10/20
- 0 if individual exam yiels <6/20
- A linear progression in between.
Other information
This course is part of the set of courses « Project 4 » of the program of bachelor in engineering. Projects 4 share common transversal objectives, but exist under different versions oriented towards specific disciplinary objectives, corresponding to the bachelor tracks. Each student chooses the project related to one of his/her tracks.
Online resources
Faculty or entity
ELEC
Programmes / formations proposant cette unité d'enseignement (UE)
Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Bachelor in Engineering
