Tommaso Polonelli: Catalogue data in Autumn Semester 2023 |
| Name | Dr. Tommaso Polonelli |
| Address | Zentr. f. projektbasiertes Lernen ETH Zürich, ETZ D 97.6 Gloriastrasse 35 8092 Zürich SWITZERLAND |
| tommaso.polonelli@pbl.ee.ethz.ch | |
| Department | Information Technology and Electrical Engineering |
| Relationship | Lecturer |
| Number | Title | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|
| 227-0085-63L | P&S: Enabling Smart and Low Power IoT Sensor Nodes  Course can only be registered for once. A repeatedly registration in a later semester is not chargeable. | 4 credits | 4P | T. Polonelli, M. Magno | |
| Abstract | The category of "Laboratory Courses, Projects, Seminars" includes courses and laboratories in various formats designed to impart practical knowledge and skills. Moreover, these classes encourage independent experimentation and design, allow for explorative learning and teach the methodology of project work. | ||||
| Learning objective | Enabling smart and low-power IoT sensor nodes – Firmware programming, sensor acquisition and signal processing, digital interfaces, wireless connectivity (Bluetooth and WiFi) combined with an onboard Neural Network (NN) classifier. Microprocessors (MCU) are everywhere today, from ultra-low power wearable devices to robots and embedded systems for the industry. In general, combining an MCU with sensors, a wireless interface, and onboard signal processing is the foundation for most electronic devices. In this practical course, the students will have the opportunity to improve their C programming skills on an actual device, with several sensors (microphones, accelerometers, vibrometers, temperature, humidity), a dual Bluetooth-WiFi wireless interface, and an AI accelerator for onboard data analysis and processing. The kit used in this course is directly provided by STMicroelectronics and can be found here: https://www.st.com/en/evaluation-tools/steval-stwinkt1.html. Combining theory (20%) and practical implementation (80%) should enable students to conduct high-level firmware programming for microcontrollers. After seven practical exercises and hands-on lessons, students will have the opportunity to propose and implement their own idea making use of the previously acquired knowledge and the supervisor's support. The primary programming language will be C. A basic knowledge of Python is suggested but optional. The course will be taught in English. | ||||