The course will provide the student with the tools to analyze and design circuits and systems,
both analog and digital, operating at high frequencies,
with low power consumption and high performance,
for wireless networking infrastructures and for the Internet of Things (IoT).
The course refers to applications such as wireless sensor networks and RF identification (RFID)
for industry 4.0, radar / lidar and V2X (vehicle to everything)
communications for self-driving vehicles, Robotics and Internet of Energy.
The student will face, with CAD (e.g. Matlab / Simulink),
the project starting from the high-level modeling of the complete system,
to the optimization and co-design of the HW / SW platform,
up to the choice and design of high performance integrated circuits and systems
in advanced technologies
In the oral exam the student's ability to explain correctly the main topics presented during the course at the board will be assessed. In the laboratory report the student must demonstrate the ability to utilize a specific CAD tool for I0T design and simulation.
Methods:
Further information:
33% Laboratory Report (CAD design and simulation + report); 67% Oral exam
In the oral exam the student's ability to explain correctly the main topics presented during the course at the board will be assessed. In the laboratory report the student must demonstrate the ability to utilize a specific CAD tool for I0T design and simulation.
Methods:
Further information:
33% Laboratory Report (CAD design and simulation + report); 67% Oral exam
Internet 0f Things, Wireless, Systems
Knowledge of the contents of the Telecommunications Electronics (LM) program is required.
Delivery: face to face
Learning activities:
Attendance: Advised
The course will provide the student with the tools to analyze and design circuits and systems,
both analog and digital, operating at high frequencies,
with low power consumption and high performance,
for wireless networking infrastructures and for the Internet of Things (IoT).
The course refers to applications such as wireless sensor networks and RF identification (RFID)
for industry 4.0, radar / lidar and V2X (vehicle to everything)
communications for self-driving vehicles, Robotics and Internet of Energy.
The student will face, with CAD (e.g. Matlab / Simulink),
the project starting from the high-level modeling of the complete system,
to the optimization and co-design of the HW / SW platform,
up to the choice and design of high performance integrated circuits and systems
in advanced technologies
The course will provide the student with the tools to analyze and design circuits and systems,
both analog and digital, operating at high frequencies,
with low power consumption and high performance,
for wireless networking infrastructures and for the Internet of Things (IoT).
The course refers to applications such as wireless sensor networks and RF identification (RFID)
for industry 4.0, radar / lidar and V2X (vehicle to everything)
communications for self-driving vehicles, Robotics and Internet of Energy.
The student will face, with CAD (e.g. Matlab / Simulink),
the project starting from the high-level modeling of the complete system,
to the optimization and co-design of the HW / SW platform,
up to the choice and design of high performance integrated circuits and systems
in advanced technologies
llimiter waves.
Inoltre verrà fornito materiale didattico dai docenti del corso
Teaching material provided by the teacher
It is possible to attend online to the lessons
availability of the teacher for face to face ltutorship or also remote tutorship (email, skype)
In the oral exam the student's ability to explain correctly the main topics presented during the course at the board will be assessed. In the laboratory report the student must demonstrate the ability to utilize a specific CAD tool for I0T design and simulation.
Methods:
Further information:
33% Laboratory Report (CAD design and simulation + report); 67% Oral exam
In the oral exam the student's ability to explain correctly the main topics presented during the course at the board will be assessed. In the laboratory report the student must demonstrate the ability to utilize a specific CAD tool for I0T design and simulation.
Methods:
Further information:
33% Laboratory Report (CAD design and simulation + report); 67% Oral exam