Modelling and Simulation using SimulinkIversity
Was lernen Sie in diesem Kurs?
The main objective of this MOOC is to teach the use of Simulink® as a simulation tool for a broad variety of application domains. We will specifically focus on topics of interaction of the simulation models with the real world using Arduino Microcontrollers and Simulink®'s corresponding Arduino Hardware Support Package.
First, we will explain modelling and simulation concepts in general and introduce Simulink®. As a first application, we show how a simplified model of a Water Treatment Plant is implemented using Simulink®. We will then use an Arduino microcontroller to access hardware in the real world. We will go on to introduce control engineering techniques using Simulink® and apply these techniques to drive an example system of a ball floating in an airstream.
What will I learn?
By the end of this course, you will be able to implement simulation models using the tool Simulink®. These models can cover applications in the engineering domain and you know methods and technologies to create simulation models of realistic complexity.
In the engineering domain, microcontrollers are frequently used to control some physical system. Therefore, in this course you will also learn how to use an Arduino microcontroller for this purpose and how programmes for such a microcontroller are implemented in Simulink®. You will specifically learn techniques of control engineering by applying them to a technically simple physical system that is yet difficult to control.
What do I need to know?
This course will be taught on an academic level for undergraduate students. Therefore, knowledge in mathematics and physics of at least secondary education level as well as programming knowledge is a prerequisite.
Having already passed our MOOC "Modelling and Simulation using MATLAB" is helpful but not mandatory.
Chapter 1: My first Simulink® model
Chapter 2: Advanced Simulink® modelling
Chapter 3: Modelling a Water Treatment Plant
Chapter 4: The Arduino microcontroller and the corresponding Simulink® support package
Chapter 5: Control Engineering using Simulink®
Chapter 6: Control Engineering using the Arduino