ECAM LaSalle Mechanical and Electrical Engineering Programme
| General Data | ||||
|---|---|---|---|---|
| Academic program | ECAM LaSalle Mechanical and Electrical Engineering Programme | Module Manager(s) :
GIBERT Guillaume |
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| EC Type : Lectures | Wireless Communications and Networks (LIIEEng08EWNComm) | |||
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Lab Work : 8h00 Lectures : 4h00 Individual work : 6h00 Total duration: 12 |
Status
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Period
Semester 8 |
Teaching language :
English |
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| General objectives |
|---|
| By the end of this course, students will be able to: 1. Define an IoT system and its architecture 2. Understand the basic physic concepts of radio waves and modulation 3. Define the pros/cons of all the IoT networks 4. Choose the best IoT system given technical specifications 5. Program an IoT system and retrieve its data online 6. Face the difficulty of hardware programming |
| Content |
|---|
| -Introduction to IoT devices and their architectures (microcontroller, antenna…) -Introduction to radio waves and principles of modulation (amplitude, frequency and phase) -Definition of the various IoT networks (Short-range, LPWAN, Cellular) -Practical case study to choose the best IoT solution given technical specifications -Practical introduction to IoT programming with Sigfox modules for Arduino board |
| Corequis |
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| -Signal processing -Computer programming -Object-oriented programming |
| Bibliographie |
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| Essential resources: None Recommended resources: B. Adryan, D. Obermaier, P. Fremantle (2017) The Technical Foundations of IoT, Artech House, Inc., USA |
| Assessment(s) | |||
|---|---|---|---|
| N° | Nature | Coefficient | Observable objectives |
| 1 | 1, 2, 3, 4 | 0,8 | Observable objectives: final exam in which students will be evaluated on their ability to define IoT components and find the most adequate IoT solution given specifications. |
| 2 | 5, 6 | 0,2 | labs in which students will be evaluated on their ability to program an IoT device using C and Python languages. |