This unit will cover the general principles for design and development of wearable devices for biomedical applications (diagnosis and monitoring of functions). This includes sensors, actuators and micro-controller programming.
This unit intends to provide students with the essential tools to design wearable devices for medical applications.
At the end of this unit the student will be able
Combination of lectures, lab activities and project work
General course introduction. Wearable devices in medicine. Basics of microcontroller programming. Introduction to the Arduino platform (Arduino IDE and simulator) Lab activity 1: A Hello world MCU program
Actuators. Digital, analog. PWM control. Transistors as switches Lab activity 2: LED dimmer, DC motor
Sensors. Digital, analog. A/D conversion. Lab activity 3: LED dimmer/DC motor controlled by a potentiometer
Communication protocols. Sensors and actuators based on serial protocols (synchronous/synchronous) Lab activity 4: IMU sensor, OLED screen
Timed acquisition/control. Timers, interrupts Lab activity 5: timed acquisition
Datasheets for microcontrollers, sensors and actuators
Ricevimento: VITTORIO SANGUINETI. Appointment: Tel. 0103356487 or vittorio.sanguineti@unige.it
VITTORIO SANGUINETI (President)
DAVIDE ANCONA
GIORGIO DELZANNO (President Substitute)
The timetable for this course is available here: EasyAcademy
Common to both units
Ask the teacher for any other information not included here
