General Engineering Program
| General Data | ||||
|---|---|---|---|---|
| Academic program | General Engineering Program | :
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| Type d'EC | Classes (LIIAem08ESystEmbCon) | |||
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Status :
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Period :
ACADEMIC SEMESTER |
Education language :
French |
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| Learning Outcomes |
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| "Practical approach to connected IoT (Internet of Things) systems for various embedded applications Developing a connected IoT application: video games, automobile, electricity and energy consumption metering, RFID, etc. " |
| Content |
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| " • Structure and programming of an IoT in the MBED environment with ARM LPC176 microcontroller • Example of applications A student must be able to test and finalize two subjects from the following list: - Receiver of GPS signals - Using a Nintendo Nunchuck grip - ERDF remote information and energy metering - Reading RFID tags - Scan of a CAN network and site manipulators - Processing of an RC5 infrared remote control frame " |
| Pre-requisites / co-requisites |
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| "Knowledge of programming languages in C and C ++. - Scientific and technical knowledge on discontinuous logic systems (semester 5). - Knowledge of asynchronous and synchronous systems analysis approaches (semester 5)." |
| Bibliography |
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| Toulson, R., & Wilmshurst, T. (2016). Fast and effective embedded systems design: applying the ARM mbed. Newnes. Gunther Gridling, Bettina Weiss : Introduction to Microcontrollers, Courses 182.064 & 182.074, Vienna University of Technology X. Fenard : Le Bus USB, Guide du concepteur - Dunod M. Nelson : Communications série - Dunod Bert Van Dam : Microcontrôleurs RISC 32 bits à architecture ARM - Elektor-Publitronic |
| Assessment(s) | |||
|---|---|---|---|
| N° | Nature | Coefficient | Observable objectives |
| 1 | Written exam | 1 | |
| 2 | Practical work | 1 | |