Code: | EEC0025 | Acronym: | SCON |
Keywords | |
---|---|
Classification | Keyword |
OFICIAL | Basic Sciences for Electrotechnology |
Active? | Yes |
Responsible unit: | Department of Electrical and Computer Engineering |
Course/CS Responsible: | Master in Electrical and Computers Engineering |
Acronym | No. of Students | Study Plan | Curricular Years | Credits UCN | Credits ECTS | Contact hours | Total Time |
---|---|---|---|---|---|---|---|
MIEEC | 60 | Syllabus | 3 | - | 6 | 56 | 162 |
This course aims at providing the sudents with the necessary skills to perform the following tasks: analysis of feedback systems with static nonlinear elements; analysis of state space systems in continuous and discrete time; controller/observer synthesis; analysis of systems with stochastic inputs (after having acquired basic knowledge about stochastic processes).
After this course the students should be able to:
Model processes using state space realizations
Construct complex controllers using the state space approach.
Apply their knowledge to the solution of interdisciplinary problems that involve their area of specialization.
1. Introduction to state space systems (continuous time and discrete time).
1.1- State space representation of nth order differential/difference equations
1.2- The transfer function of a state space representation
1.3 - Solution of the state space equations and modal analysis.
1.4 - Discretization of continuous state space models using the zero order hold (zoh) method.
2. Analysis of state space systems
2.1- Stability
2.2 - Controlability and observability
2.3 - Canonical representations
3 - Introduction to the realization theory
3.1 – Exact realizations
3.2 – Approximate realizations
4 - Control of state space systems.
4.1 – State feedback (with full state measurement).
4.2 – State observers.
4.3 – Feedback with state observation.
4.4 - Refrence tracking.
5. Linear systems with stochastic variables.
5.1 - Introduction to stochastic processes; correlation and spectral analysis.
5.2 - Response of a linear system to stochastic inputs.
5.3 - Introduction to stochastic filtering: the Kalman filter.
5.4 - Introduction to parameter estimation.
The books are listed by order of use, according to the course contents.
Lectures: Exposition on the board/slides.
Exercise classes: Solution of problem sheets proposed by the instructor, using, whenever possible, computer simulations with Matlab's Control Systems Toolbox.
Designation | Weight (%) |
---|---|
Exame | 70,00 |
Participação presencial | 0,00 |
Teste | 30,00 |
Total: | 100,00 |
Designation | Time (hours) |
---|---|
Estudo autónomo | 108,00 |
Frequência das aulas | 54,00 |
Total: | 162,00 |
Students must participate at least in 75% of the exercise classes.
Normal regime:
Final grade = max[30% (midterm grade)+70%(final examination); final examination]
Other regimes:
Final grade = Final examination grade
In order to obtain a final grade above 18/20 (i.e., 19 or 20), the students must be submitted to a special (oral or written) exam, that will take place after the end of the re-sit examination period. The students in these conditions will have their names properly highlighted on the results sheet posted after the second exam sitting.
Obtaining a final classification superior to 18 marks (19 or 20) demands for a special exam that will be done after the end of the re-sit examination period. The students in these conditions will have their names properly highlighted on the results’ sheet posted after the written exams. The exams to be done by the students in the special examination period (see the "Regulamento Específico de Avaliação dos Discentes da FEUP" at https://sigarra.up.pt/feup/pt/legislacao_geral.ver_legislacao?p_nr=2854) can be oral exams, in which case they will be previously noticed.
The students admitted to the exam for being dismissed from frequency (under the items a), b) and c) of Article 4 of the General Evaluation Rules) will do, on the regular examination period, the same exam as the ordinary evaluation students. Obtaining a final classification superior to 18 marks (19 or 20) demands for a special exam that will be done after the end of the re-sit examination period. The students in these conditions will have their names properly highlighted on the results’ sheet posted after the written exams. The exams to be done by the students in the special examination period (item 5 of Article 6 in the General Evaluation Rules) can be oral exams, in which case they will be previously noticed.
Grade improvement can be done accordingly to item 1 of Article 10 of General Evaluation Rules. This means it can be done if the student enrolls either on the re-sit exam of the regular period in which he obtained approval or on one of the tests of the regular period of the following year, within the established deadlines.
Language of instruction: Portuguese
Special support will be given to foreign students.