Model Based Design: Build Embedded Systems with Simulink
Model Based Development - MBD: From Requirements to Testing on Hardware
Description
Model Based Design: to be MBD Engineer
We will dive into the world of Model Based Design and Embedded Systems, explore the entire software development life cycle.
Initiate the process by comprehending the requirements, transforming them into models, generate code from models, integrate codes and deploy on hardware.
Throughout this course, we will guide you systematically in the creation of embedded systems projects and leveraging the power of the model based approach with Simulink.
You’ll gain expertise in constructing models tailored for code generation, deploying this code seamlessly onto microcontrollers, and conducting real-world hardware testing.
Furthermore, we will provide you with a comprehensive introduction to the essential Simulink blocks that are frequently utilized in embedded software projects within industries such as automotive.
In addition, will learn the common design concepts in industry such as implementation of counters, debouncing algorithm and other topics.
Learn how to interface different sensors, design models to use data from them and to control different actuators.
This course will build your knowledge step by step and prepare you to start your journey as model based design engineer in industries such automotive, aerospace and robotics by building real embedded systems projects starting from basic examples to more complex designs.
This course will teach you how to handle the following sensors and actuators using model based design techniques:
Modelling using multiple Simulink blocks such as:
Math blocks, Logic blocks
PID controller, Inputs and outputs blocks,
If/else block, Switch Case blocks, Merge block
Enabled subsystem
Truth Tables
Stateflow chart
Implement commonly used algorithm in automotive and other industries such as Counters and Denouncing algorithm
Generate C Code and Deploy on Micro-Controller Target
Digital inputs and outputs (Buttons and LEDs)
Analog signals (Potentiometer)
Combine digital and analog signals in a control algorithm to control motor speed
LDR
Ultrasonic Sensor
Infrared Obstacle Avoidance Sensor
Rotary Encoder
Simulink Support Package for Arduino
In each lesson we will learn a new design technique and introduce you to multiple ways of building the same functionality to enhance your modeling skills and deploying .
What You Will Learn!
- Understand the concept of Model Based Design
- Navigate the Simulink Environment
- Configure Simulink Model for Code Generation
- Integrate Hand-Written Code with Generated Code from Simulink
- Deploy Code on Microcontroller
- Test Code on Real Hardware
- Requirements Analysis
- Interface Sensors and Actuators with Microcontroller
- Develop Algorithms for Different Sensors Using Simulink
- How to Read and Write Digital Signals
- Read Analog Signals
- Measure Distance Using Ultrasonic Sensor
- Use LDR (Photoresistor)
- Develop Algorithm for Rotary Encoder
- Algorithm for Infrared Sensor
- DC Motor Control using Digital and Analog Signals
Who Should Attend!
- Anyone who is interested in developing a full embedded systems project using model based design approach.
- Undergraduate and graduate students seeking a model-based development engineering position