Overview

Mechatronic systems are transforming our world, with robots as some of the most impactful examples. These versatile machines enhance efficiency across diverse fields, from manufacturing and agriculture to household tasks and space exploration.

Effective communication protocols are critical for seamless data exchange between devices and systems in robotics

This course provides a comprehensive overview of key communication protocols and essential hardware used in mechatronics, with a strong focus on robotic applications.

Participants will also learn about the Robot Operating System (ROS) and gain the skills to use its communication framework for seamless interaction between software and hardware. With this knowledge, participants will be prepared to design effective, robust and adaptable robotic solutions fit for a variety of industrial applications.

Who is this course for?
Designed for those seeking to deepen their expertise in communication systems within robotics and industrial automation, this course is geared towards professionals, engineers, and students in fields such as electrical engineering, computer science, and robotics, interested in developing practical skills.

A hands-on approach: build your own robot
One of the course's unique features is its use of modular mechatronic educational hardware.

This hardware facilitates a systematic approach to designing robotic applications, guiding you through the entire process of mechatronic system integration – from conceptualization and analysis to construction and control.

The open-source hardware and firmware enables customization, making it adaptable for various applications, including student thesis projects. Additionally, the course integrates knowledge of other robotics components, such as motor control, sensing, and system integration, highlighting their role in communications.

Full Program
This course is an initiative of the Erasmus + project GEMS (Graceful Equalizing of Mechatronics Students). It is part of the online program Building Robots: From Mechatronic Components to Robotics , developed by GEMS partners, with the Teaching Factory Competence Center leading the part about communication in robots.

Syllabus

Week 1: Introduction to Communication Protocols

Overview of communication protocols
Importance of communication protocols in robotics and industrial equipment
Basic concepts: data transmission, baud rate, protocols
Types of communication protocols

Week 2: Fundamentals of Serial Communication

Understanding Serial Communication
Overview of RS-232, RS-485, and other serial communication standards
Configuration and settings for serial communication

Week 3: Wireless Communication Technologies

Wireless communication fundamentals
Wi-Fi, Bluetooth, and other wireless protocols
Wireless communication in industrial environments

Week 4: Communication Hardware in Robotics

Introduction to communication hardware components
Microcontrollers, microprocessors and communication interfaces
Actuator control and feedback mechanisms
Integration of communication hardware in robotic systems

Week 5: ROS (Robot Operating System) Fundamentals
Introduction to ROS architecture and components

ROS communication concepts: topics, messages, services, actions
Understanding ROS nodes, topics and messages
ROS tools and utilities for communication and development
Hands-on exercises and projects using ROS for communication in robotics applications

Week 6: Advanced Topics in Communication Protocols

Real-time communication requirements in robotics and industrial applications
Synchronization and timing considerations
Fault tolerance and error handling mechanisms
Emerging trends and future directions in communication protocols
Research projects exploring advanced communication protocols for specific industrial applications