About the Course
The primary goal of this course is to teach students about the nuances of industrial automation and how it can be applied through digitalization. This course is distinguished by its comprehensive coverage of various robotic configurations for industrial applications, robot design specifications, applicationoriented robot programming, and robotic vision systems. It improves the learners’ ability to design and build Robots for specific applications.
Digitalization is unavoidable in today’s world. Industry 4.0 is critical for integrating manufacturing and business as a whole in order to reduce complexity and decision making. From digital twins to robotic process automation, this course gives insight into the concepts of smart factories and digital transformation. The applications of Product Life Management, ERP, Value Chain Management, and IIoT in industries are thoroughly discussed.
Course Objective
- Describe with various robotic configurations and programming features.
- Illustrate the critical components of Mechatronics systems, aspects of Robotic Design, and Digitalization
- Explain the Drivers and Technologies of Digital manufacturing
- Create Robots for Industrial use
- Summarize Digital Manufacturing’s technical impact
- Create a smart factory using the use case study as a guide
Key Topics
Learning Outcomes
- Identify the specific equipment involved in a given utility
- Explain the various utilities and carry out the sketching of schematics of various utilities involved in the Chemical Process Industries
- Arrange the required engineering documents as input for the design of utilities
- Select the material of construction of the components of the utility systems
- Create the utility layout, and establish the procurement strategy
- Design the given utility of Chemical Process Industries to comply with codes and standards