Program Overview
Smart Robotic Production
Course Overview
“Smart Robotic Production” is a 20 ECTS module for engineering professionals, focusing on designing, implementing, and optimizing robotic systems in modern manufacturing. In the Robotlab, participants gain hands-on experience with advanced technologies and methods to boost efficiency, flexibility, and innovation. The course also covers computational design principles for optimizing and customizing robotic solutions.
Professional Context
In today’s rapidly evolving manufacturing landscape, there is a growing demand for engineering professionals with expertise in smart robotic production and computational design. This course prepares graduates to excel in various industries, positioning them for a range of dynamic roles, for example Robotics Engineer, Automation Specialist, Manufacturing Consultant or Research and Development Engineer.
Key Topics
- Introduction to Industrial Robotics in Manufacturing: Understanding the role of robotics in modern manufacturing, including automation principles, robotic applications, and industry trends.
- Industrial Robotics Hardware and Software: Exploring the components of robotic systems, including manipulators, sensors, actuators, and control systems. Hands-on experience with programming languages and simulation tools.
- Smart Manufacturing Concepts: Introduction to Industry 4.0 and 5.0 principles, including IoT integration, data analytics, and cyber-physical systems, and their application in robotic production environments.
- Computational Design for Robotics: Utilizing computational design principles, algorithms, and software tools to optimize robotic system performance, customization, and adaptability.
- Robotic System Integration: Techniques for integrating robotic systems into existing manufacturing processes, including design considerations, safety protocols, and human-robot collaboration.
- Advanced Robotics Technologies: Exploration of advanced robotics technologies such as collaborative robots (cobots), machine learning, computer vision, and adaptive control for enhanced production capabilities.
Target Group
This course is designed for engineering professionals who want to enhance their skills in smart robotic production and computational design.
Course Details
- Duration: 5 months
- Start: February, to be communicated
- Certification: Certificate
- Fee: €3,333.67
- Language: The course will be taught in English
- Study Load: The course has a total of 20 ECTS (European Credit Transfer and Accumulation System), which equates to approximately 560 study hours over a period of 5 months.
Admission
There are no specific formal prerequisites for admission, apart from your motivation and access to a laptop. However, this course is aimed at professionals with a background in engineering or related fields, so having prior knowledge of basic engineering principles or related experience would be beneficial.
Learning Methodology
- Interactive Lectures: No boring monologues here! Our lectures are interactive, with plenty of opportunities for you to ask questions, share ideas, and get involved in discussions. We use cool multimedia tools to make concepts clear and exciting.
- Hands-On Workshops: You’ll get your hands busy in our labs. These sessions are all about doing, not just listening. You’ll work on real projects, use cutting-edge tools, and see your ideas come to life.
- Collaborative Projects: Team up with your classmates to tackle creative challenges, learning how to brainstorm, design, and build together in projects that mimic real-world professional environments
- Digital Tools and Platforms: You'll become proficient in the latest design and communication software, gaining industry-standard skills that will make you job-ready by the end of the course.
- Robot Lab and Peer Feedback: Take your ideas from digital to physical in our Robot Lab, where you’ll prototype and test designs. Plus, through peer reviews and feedback, you’ll improve your work and develop critical thinking skills for continuous growth.
What Will You Learn?
- You will be able to understand robotics principles and apply them effectively in manufacturing environments.
- You will gain the skills to design and implement robotic solutions tailored to specific production needs, using computational design techniques for optimization and customization.
- You will learn how to integrate smart manufacturing concepts to boost productivity and flexibility in production processes.
- You will be equipped to evaluate and optimize robotic production systems for improved performance, quality, and safety, utilizing computational tools for simulation and analysis.
- You will master industry best practices for maintaining, troubleshooting, and continuously improving robotic systems.
Location
Jakoba Mulder building (JMH) Rhijnspoorplein 2 1091 GC Amsterdam
Overview:
Amsterdam University of Applied Sciences (AUAS) is a university of applied sciences located in Amsterdam, Netherlands. It offers a wide range of bachelor's and master's degree programs, as well as courses and minors. AUAS is known for its applied research and its focus on preparing students for careers in various fields.
Services Offered:
The provided context focuses on information for exchange students, so it primarily details services related to exchange programs. These include:
Exchange Programs:
AUAS offers a variety of exchange programs across different faculties, allowing students to choose courses that align with their specialist areas.Housing:
AUAS provides housing options for exchange students, with a 90% success rate in the housing lottery.Immigration:
AUAS assists exchange students with visa and permit requirements.Financial Matters:
AUAS provides information on costs of living, banking, and insurance for exchange students.Upon Arrival:
AUAS offers support and guidance to exchange students upon their arrival in Amsterdam, including a "Find a Buddy" program to help them connect with other students.Student Life and Campus Experience:
The context highlights the importance of student life in Amsterdam as part of the AUAS experience. It mentions student networks and opportunities to make the most of time in the city.
Key Reasons to Study There:
International Exchange Opportunities:
AUAS is a participant in the Erasmus+ program, offering exchange opportunities for students from across Europe and beyond.Applied Research Focus:
AUAS emphasizes applied research, providing students with practical experience and preparing them for real-world careers.Student Support:
AUAS provides comprehensive support services for exchange students, including housing, immigration, financial matters, and upon arrival assistance.Vibrant City Life:
Amsterdam offers a rich cultural and social experience, with numerous opportunities for students to explore and engage with the city.Academic Programs:
The context does not provide specific details about the academic programs offered by AUAS.