MET504 Advanced Control Systems Engineering

Course description for academic year 2020/2021

Credits: 10
Campus: Bergen
Semester of instruction: Autumn
Language of instruction: Engelsk
Semester of assessment: Autumn.
Course coordinator: Associate Professor Emil Cimpan
Ordinary exam

School exam

10.12.2020 at 09:00

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Part of studyprograms:

Energy

Contents and structure

The course covers the basic and the introduction of more advanced principles of modeling, simulation, analysis and design of control systems. The course addresses first topics from classical control systems such as dynamical modeling, frequency analysis and stability, together with tuning of PID controllers for (SISO = Single-Input-Single-Output) systems. Further are addressed topics from more advanced (MIMO = Multiple-Input-Multiple-Output) systems based on state-space and discrete or sampled systems to solve actual challenges in a broader technological area such as electrical, mechanical, thermic-energi and pressure-flow systems. Lastly, modern topics such as system performance and optimization would be studied through Model Predictive Control (MPC), which is one of the most successful techniques in nowadays control systems engineering.

Learning Outcome

Knowledge

At the end of the course the candidate has knowledge of the mathematical description, analysis and design of continuous and discrete processes based on classical modelling, more advanced systems based on state-space and optimization.

Skills

At the end of the course, the candidate can apply principles of design, control, optimization and stability analysis and can perform quality evaluations of existent control systems. The candidate can participate in research and development activities,

Competence

The candidate can communicate basic information related to theories, issues and solutions in physics and classical control theory. The candidate understands the role of the engineer within the technological development in society.

Entry requirements

Completed bachelor grad.

Recommended previous knowledge

None

Teaching methods

Lectures, laboratory work, exercises by using PC and application software.

Compulsory learning activities

5 compulsory assignments, 3 laboratory works. Mandatory attendance at the laboratory works.

Accepted mandatory assignments are valid within 3 semesters following the approval term.

Assessment

4 hours written exam. The grading scale used is A to F. Grade A is the highest passing grade in the grading scale, grade F is a fail.

Examination support material

Announced at the start of the semester

More about examination support material