Cyber-Physical Systems and Smart Infrastructures
Description
| These lecture series are dedicated in communicating the fundamentals of Cyber-Physical Systems and Smart Infrastructures, with emphasis on their agricultural exploitation. The areas being covered include but are not limited to: Cyber-physical system basics. Methods for selecting the participating components. Automatic control fundamentals. Techniques for intercepting and respond to triggers from the natural and human-made physical world, like handling asynchronous events, parallel processes, scheduling and threads. Inter process communication. Incorporating machine learning functionality. Performance evaluation. Security issues. Experimentation with actual cyber-physical systems for agricultural purposes. |
| WEEK | Lectures |
| 1ST | Defining the role of cyber-physical systems |
| 2ND | Selecting sensors, actuators, microcontrollers and network entities |
| 3RD | Automatic control fundamentals |
| 4TH | Intercepting and respond to signals from the natural and human-made physical world |
| 5TH | Handling time, synchronous and asynchronous events of diverse priority |
| 6TH | Parallel processing and threads |
| 7TH | Modelling states and context switching |
| 8TH | Interconnecting and communicating with different modules and systems |
| 9TH | Incorporating intelligent functions for autonomous operation |
| 10TH | Evaluating the performance of the cyber-physical system |
| 11TH | Addressing security and ergonomics issues |
| 12TH | Custom agricultural robots as facilitators for the cyber-physical systems understanding |
| 13TH | Experimentation with emphasis on agricultural applications |
Exams, marking and student assessment
A combination of written exams and project assignments during the semester