Advanced Control and Estimation
2022/2023
Recommended prerequisite for participation in the module
2nd semester at the Master of Science in Intelligent Reliable Systems or alike.Content, progress and pedagogy of the module
Purpose
The purpose of the project unit is to contribute to students’
attainment of knowledge about advanced control and estimation
technologies and their engineering applications
Content
The project is based on a design problem for advanced control
and/or estimation system. The considered physical system can be a
(petro-) chemical process, mechanical system, or any other
safety-critical systems. The control and/or estimation design
should take advanced technology into consideration instead of
employing fundamental control and/or estimation solution. The
strategies and methods for this design are encouraged to consider
using some intelligent approaches as support tools. The chosen
solution has to be implemented on a real-time platform and tested,
either by the computer simulations or a dedicated hardware system.
The students in the project work shall demonstrate their ability to
handle complex problems by scientific methods.
Learning objectives
Knowledge
- Have the knowledge and comprehension of fundamental principles, characteristics and limitations of some advanced control and estimation techniques, such as model-based adaptive control, optimal control, model predictive control as well as model -based/-free intelligent control.
- Have knowledge and comprehension of different advanced control methods and their potential applications in engineering systems.
Skills
- Be able to judge the usefulness of the selected different scientific methods for the design of advanced control and estimation for engineering systems.
- Be able to analyze, realize and test the selected control and estimation method in a professional manner
Competences
- Be able to control the working and development process within the project theme, and be able to develop new solutions within advanced control and estimation of engineering systems.
- Be able to show entrepreneurship to define and analyse scientific problems in the area of advanced control and estimation of engineering systems, and based on that make and state the reasons for decisions made.
- Be able to set up innovative ideas within the area of advanced control and estimation of engineering systems
- Independently be able to continue own development in competences and specialization
Type of instruction
Project work.
Extent and expected workload
Since it is a 20 ECTS project module, the work load is expected to be 600 hours for the student
Exam
Exams
| Name of exam | Advanced Control and Estimation |
| Type of exam | Oral exam based on a project |
| ECTS | 20 |
| Assessment | 7-point grading scale |
| Type of grading | Internal examination |
| Criteria of assessment | The criteria of assessment are stated in the Examination Policies and Procedures |
Additional information
Elective project
On this semester one project must be chosen out of two elective
projects (total: 20 ECTS).
Facts about the module
| Danish title | Avanceret kontrol og estimering teknologi |
| Module code | N-IRS-K3-1 |
| Module type | Project |
| Duration | 1 semester |
| Semester | Autumn
|
| ECTS | 20 |
| Language of instruction | English |
| Empty-place Scheme | Yes |
| Location of the lecture | Campus Esbjerg |
| Responsible for the module |
Organisation
| Study Board | Study Board of Build, Energy, Electronics and Mechanics in Esbjerg |
| Department | Department of Energy |
| Faculty | The Faculty of Engineering and Science |
