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DELMIA
- Build a virtual factory with industrial equipment and resources
- Define, analyze and optimize factory flows and resource utilization
- Define robot trajectories, create robot tasks and generate robot programs
This is a fundamental course, intended for learners interested in starting their journey with the 3DEXPERIENCE platform for industrial engineering, layout & flow simulation and robotics.
Prerequisites:
Read more
- Build a virtual factory with industrial equipment and resources
- Define, analyze and optimize factory flows and resource utilization
- Define robot trajectories, create robot tasks and generate robot programs
This is a fundamental course, intended for learners interested in starting their journey with the 3DEXPERIENCE platform for industrial engineering, layout & flow simulation and robotics.
Prerequisites:
Read more
- Build a virtual factory with industrial equipment and resources
- Define, analyze and optimize factory flows and resource utilization
- Define robot trajectories, create robot tasks and generate robot programs
This is a fundamental course, intended for learners interested in starting their journey with the 3DEXPERIENCE platform for industrial engineering, layout & flow simulation and robotics.
Prerequisites:
To practice the lessons learned in this course, you will need access to the 3DEXPERIENCE platform. You are eligible for the 3DEXPERIENCE Engineer for Students offer to put this module into practice.
Access powerful capabilities for manufacturing with DELMIA at a low price, $72 (excluding taxes), use this link : https://go.3ds.com/CVF1
Register for this course and see more details by visiting:
OpenCourser.com/course/b6lllc/virtual
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What's inside
Syllabus
Welcome to the Virtual Factory for Education Course!
Layout and Flow Simulation for Education
In this module, you will learn how to create a virtual factory, by exploring the entire workflow to build a workshop, define flows inside it and design equipment. You will also learn how to analyze factory flows, check for resources utilization, identify bottlenecks and improve the throughput rate.
Read more
Syllabus
Welcome to the Virtual Factory for Education Course!
Layout and Flow Simulation for Education
In this module, you will learn how to create a virtual factory, by exploring the entire workflow to build a workshop, define flows inside it and design equipment. You will also learn how to analyze factory flows, check for resources utilization, identify bottlenecks and improve the throughput rate.
Read more
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Virtual Factory for Education.
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Career center
Learners who complete Virtual Factory for Education will develop knowledge and skills
that may be useful to these careers:
Industrial Engineer
Industrial Engineer
An Industrial Engineer optimizes manufacturing processes and systems for enhanced efficiency and productivity. This role is deeply rooted in designing, programming, simulating, and optimizing virtual factories and robots. This course offers a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, a critical tool in modern industrial engineering. Learners will gain practical experience building virtual factories, defining and analyzing factory flows, and improving throughput by identifying and resolving bottlenecks. The course also teaches creating virtual twins of robot cells and generating robot programs using DELMIA Robotics, providing an Industrial Engineer with direct, hands-on experience in advanced simulation and automation techniques.
Simulation Engineer
Simulation Engineer
A Simulation Engineer develops and runs computer models to test and optimize systems or processes, particularly within manufacturing. This course is directly aligned with the core responsibilities of a Simulation Engineer, as it centers on designing, programming, simulating, and optimizing virtual factories and robots. Learners gain a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, which is essential for conducting complex simulations. Practical experience includes building virtual factories, analyzing factory flows, checking resource utilization, and creating virtual twins of robot cells to generate robot programs. This provides a Simulation Engineer with the specific platform expertise to model and evaluate industrial environments effectively.
Robotics Engineer
Robotics Engineer
A Robotics Engineer designs and programs robotic systems. This course directly addresses core skills for a Robotics Engineer, focusing on robot programming, simulation, and optimization. It provides a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform and DELMIA Robotics. Learners explore the workflow to create virtual twins of robot cells, define robot trajectories, and create robot tasks, then generate robot programs. This training helps build a foundation for a career as a Robotics Engineer, preparing individuals to implement effective robotic solutions for industrial applications. This specialized field often requires an advanced degree.
Manufacturing Engineer
Manufacturing Engineer
A Manufacturing Engineer designs, optimizes, and manages processes to produce goods efficiently and cost-effectively. This career requires a strong understanding of virtual factory design, simulation, and optimization. This course provides a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, a key tool for modern manufacturing engineering. Learners will be able to build virtual factories with industrial equipment, analyze resource utilization, and define, analyze, and optimize factory flows to improve throughput. This expertise directly supports a Manufacturing Engineer's goal of streamlining production and integrating advanced automation, making this course an essential foundation for success in the field.
Process Engineer
Process Engineer
A Process Engineer focuses on designing, implementing, and optimizing industrial processes to improve efficiency, quality, and output. This course is highly relevant for a Process Engineer, emphasizing the definition, analysis, and optimization of factory flows and resource utilization. Providing a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, learners will gain practical experience in building virtual factories, identifying bottlenecks, and improving throughput rates. This enables a Process Engineer to leverage advanced simulation techniques to refine manufacturing workflows and predict performance, making it an excellent starting point for those aiming to excel in process optimization.
Manufacturing Systems Engineer
Manufacturing Systems Engineer
A Manufacturing Systems Engineer designs, integrates, and optimizes complex manufacturing systems to enhance overall factory performance and efficiency. This role requires a comprehensive understanding of how individual components, like robots and production lines, interact. This course provides a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, teaching learners to build virtual factories with industrial equipment and resources. They will define, analyze, and optimize factory flows, identify bottlenecks, and create robot tasks and programs. This holistic approach to system design and optimization is crucial for a Manufacturing Systems Engineer. This specialized field often requires an advanced degree.
Layout Engineer
Layout Engineer
A Layout Engineer specializes in designing and optimizing the physical arrangement of equipment, workstations, and material flow within manufacturing facilities. This course directly addresses the core competencies for a Layout Engineer, explicitly covering layout and flow simulation. Providing a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, learners will explore the entire workflow to build a workshop, define internal flows, and design equipment. They will also analyze factory flows, check resource utilization, and identify bottlenecks. This practical experience with virtual factory design and optimization is invaluable for a Layout Engineer seeking to create efficient and effective industrial layouts.
Automation Engineer
Automation Engineer
An Automation Engineer designs, develops, and implements automated systems and solutions, often integrating robotics and control systems in manufacturing. This course directly supports the skillset needed by an Automation Engineer through its focus on designing, programming, simulating, and optimizing virtual factories and robots. By using the Dassault Systèmes 3DEXPERIENCE platform, learners gain hands-on experience in building virtual factories, defining robot trajectories, creating robot tasks, and generating robot programs. This ability to simulate and optimize automated processes is crucial for an Automation Engineer striving to enhance productivity and efficiency in industrial environments.
Production Engineer
Production Engineer
A Production Engineer focuses on ensuring efficient and high-quality production within a factory, managing resources, and optimizing output. This course is highly relevant for a Production Engineer, as it focuses on topics such as defining, analyzing, and optimizing factory flows, checking resource utilization, and improving throughput rates. Learners receive a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, gaining practical experience in building virtual factories and identifying bottlenecks. This hands-on understanding of how to virtually design and troubleshoot production lines directly equips a Production Engineer to enhance real-world manufacturing operations and achieve production targets.
Manufacturing Technology Engineer
Manufacturing Technology Engineer
A Manufacturing Technology Engineer researches, develops, and implements new technologies and methods to improve production processes and capabilities. This course is explicitly tailored to the interests of a Manufacturing Technology Engineer, focusing on the forefront of industrial innovation: virtual factories and robotics. Learners receive a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, gaining practical experience in designing, programming, simulating, and optimizing virtual factories and robots. The ability to build virtual factories and create robot programs allows a Manufacturing Technology Engineer to evaluate and integrate cutting-edge solutions for enhanced manufacturing efficiency and automation.
Controls Engineer
Controls Engineer
A Controls Engineer designs, develops, and maintains automated control systems for machinery and processes, commonly in manufacturing and robotics. The course offers a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, emphasizing robot programming and virtual factory optimization. Learners define robot trajectories, create robot tasks, and generate robot programs with DELMIA Robotics. This practical experience is highly relevant for a Controls Engineer, as it directly relates to the logical control and operational sequencing of automated equipment. Understanding how to simulate and program these systems virtually helps build a foundation in implementing real-world industrial control solutions.
Digital Manufacturing Specialist
Digital Manufacturing Specialist
A Digital Manufacturing Specialist implements and manages advanced digital technologies, such as virtual factories and simulation tools, to enhance manufacturing processes. This course is highly relevant for a Digital Manufacturing Specialist, as it focuses on designing, programming, simulating, and optimizing a virtual factory and robots using the Dassault Systèmes 3DEXPERIENCE platform. Learners will build virtual factories, define and analyze factory flows, and create virtual twins of robot cells for programming. This hands-on experience with cutting-edge digital tools directly prepares individuals to leverage virtual environments for industrial engineering and automation, providing foundational expertise for this evolving career path.
Mechatronics Engineer
Mechatronics Engineer
A Mechatronics Engineer integrates mechanical, electrical, and computer engineering principles to design and implement automated systems and robotics. This course directly supports the skills of a Mechatronics Engineer by focusing on robot programming, simulation, and the design of automated environments. It provides a fundamental introduction to the Dassault Systèmes 3DEXPERIENCE platform, including DELMIA Robotics. Learners explore the workflow to create virtual twins of robot cells, define robot trajectories, and generate robot programs. This practical experience in virtual automation and robotics is crucial for a Mechatronics Engineer. This specialized field often requires an advanced degree.
Operations Research Analyst
Operations Research Analyst
An Operations Research Analyst uses advanced analytical methods to optimize complex processes and decision-making, often applied in logistics, manufacturing, and resource allocation. This course provides a strong foundation for an Operations Research Analyst by focusing on defining, analyzing, and optimizing factory flows and resource utilization, and identifying bottlenecks. Learners gain practical experience with simulation on the Dassault Systèmes 3DEXPERIENCE platform, a powerful tool for modeling industrial systems. The ability to simulate and optimize virtual factories and robot operations directly translates to the analytical problem-solving required in this field. This specialized field typically requires an advanced degree.
Computer Aided Design Specialist
Computer Aided Design Specialist
A Computer Aided Design Specialist uses software to create technical drawings and models, often for manufacturing, products, or infrastructure. While broader, this course provides a specific, advanced application of CAD principles by focusing on designing virtual factories and industrial equipment within the Dassault Systèmes 3DEXPERIENCE platform. Learners will explore the workflow to build a workshop, define flows, and design equipment within a virtual factory environment. This practical experience in 3D modeling and layout design, especially for complex industrial settings, expands the traditional CAD skillset, preparing a Computer Aided Design Specialist for roles focused on advanced manufacturing and industrial engineering projects.
For more career information including salaries, visit:
OpenCourser.com/course/b6lllc/virtual
Reading list
We haven't picked any books for this reading list yet.
Focusing on the algorithms behind mobile robot perception and control, this book is essential for understanding topics like localization, mapping, and state estimation in the presence of uncertainty. It is geared towards graduate students and researchers and is considered a seminal work in the field of mobile robotics.
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Comprehensive textbook on robotics, covering a wide range of topics from kinematics to machine learning. It is suitable for both undergraduate and graduate students.
Comprehensive textbook on robot modeling and control. It is suitable for both undergraduate and graduate students.
Mathematical introduction to robotics, covering topics such as kinematics, dynamics, and control. It is suitable for undergraduate students.
Provides a rigorous mathematical treatment of robotic manipulation, focusing on the kinematics, dynamics, and control of robot arms. It is aimed at graduate students and researchers with a strong mathematical background and is considered a foundational text for theoretical robotics.
Provides a comprehensive overview of recent developments in robotic welding. It covers topics such as robotic welding processes, welding automation, and welding quality control.
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Offers a unified treatment of robot mechanics, planning, and control using the contemporary approach of screw theory. It is suitable for advanced undergraduate and graduate students and is often used as a textbook. The book provides a strong theoretical basis and includes software examples for practical understanding.
Provides a comprehensive overview of robot motion planning, covering theoretical foundations, algorithms, and practical implementations. It is suitable for graduate students and researchers and key reference for anyone working on how robots navigate and move in complex environments.
Offers a practical introduction to robotics and computer vision with a strong emphasis on algorithmic implementation using MATLAB. It is suitable for undergraduate and graduate students and provides a hands-on approach to learning key concepts through readily available software tools.
Offers a comprehensive introduction to robot modeling and control, covering kinematics, dynamics, and control strategies. It is suitable for advanced undergraduate and graduate students and is widely used as a textbook in robotics courses.
Provides a broad introduction to the principles and techniques of autonomous mobile robots, including locomotion, perception, localization, mapping, and planning. It is suitable for undergraduate and graduate students and offers a good overview of the challenges and solutions in mobile robotics.
Provides a comprehensive introduction to the AI approach to robotics, covering algorithms and programming for robot systems. It is suitable for students with or without a background in AI and explores how AI contributes to autonomous capabilities. The second edition includes new material on learning, human-robot interaction, and ethics.
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Essential for robotics that interact with their environment visually, this book provides a comprehensive introduction to computer vision. It covers fundamental concepts and algorithms, making it suitable for upper-division undergraduate and graduate students. It valuable reference for perception in robotics.
Foundational text in reinforcement learning, a key area for developing intelligent and autonomous robots that can learn from experience. It is suitable for graduate students and researchers and provides a comprehensive introduction to the theory and algorithms of reinforcement learning.
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Offers a broad and unified treatment of planning algorithms, which are crucial for robots to make decisions and choose actions. It valuable resource for graduate students and researchers interested in the theoretical underpinnings of robot autonomy.
As a comprehensive handbook, this book covers a vast range of topics in robotics, from fundamentals to advanced research. It is an excellent reference for researchers and professionals, providing detailed insights into various subfields of robotics. While not a textbook for a single course, it is invaluable for deepening understanding and exploring contemporary topics.
Provides a practical guide to designing and building autonomous robots. It is suitable for advanced undergraduate students and hobbyists interested in the hands-on aspects of robotics, covering topics from hardware selection to software architecture.
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Given the increasing integration of robots into society, understanding the ethical implications is crucial. explores the ethical and social issues raised by robotics, making it relevant for students and professionals across various disciplines interested in the broader impact of robotics.
Provides a comprehensive overview of robotics, covering topics such as kinematics, dynamics, control, and perception. It is suitable for both undergraduate and graduate students.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/b6lllc/virtual
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Effort
2 weeks of study, 6 hours/week
Level
Introductory
Via
Coursera
Institution
Dassault Systèmes
Instructor
DELMIA
Session
October 27, 2025
- November 24, 2025
Language
English
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