The course is divided into four main parts. The first part deals with industrial information standards in the form of descriptive process diagrams (Process Flow Diagram - PFD, Piping and Instrumentation Diagram - P&ID, Loop Diagram - LD) and topological diagrams of industrial information and control systems. The second part focuses on detailed modeling and simulations of physical systems in the Simscape environment. The third, most extensive part, focuses on industrial information and control systems, their composition, operating principles, programming, and the development of functional components for both control and signaling logic. This part also focusses on the design of multi-level operator screens (HMI). The last part is dedicated to the final project.

1. Industrial information standards (allocation 9h)
a. Process Flow Diagrams (PFD, P&ID, LD)
b. Reading and Creating PFDs and P&IDs
c. Design of instrumentation and control using process diagrams
d. Topological diagrams of industrial information and control systems

2. High-fidelity physical modeling (allocation 6h)
a. Fundamentals of working in the Simscape environment (Fluid, Electrical, Battery)
b. Modeling measurement and drive systems
c. Modeling and control of technological processes

3. Industrial information and control systems (allocation 15h)
a. Supervisory control and data acquisition systems (SCADA)
b. Distributed control systems (DCS)
c. Operator screens (HMI) for DCS

4. Work on the final project (allocation 9h)
a. Selection of the final project
b. Project development
c. Presentation and defense of the project

• HOLLIFIELD, B. – HABIBI, E – OLIVER, D. – NIMMO, I. The High Performance HMI Handbook; Plant Automation Services, Inc., 2013, ISBN 9780977896950
• KUPHALDT, T.R.; Lessons In Industrial Instrumentation, 2019, (publikované ako voľne dostupný text pod Creative Commons Attribution 4.0 International Public License), dostuné online (https://www.ibiblio.org/kuphaldt/socratic/sinst)