| Course code |
02 13 6248 01 |
| ECTS credits |
5 |
| Course name in language of instruction |
Advanced Signal Processing |
| Course name in Polish |
Advanced Signal Processing |
| Course name in English |
Advanced Signal Processing |
| Language of instruction |
English |
Type of classes
Teaching hours per semester |
|
Lecture |
Tutorials |
Laboratory |
Project |
Seminar |
Other |
E-learn. |
| Contact hours |
15 |
|
30 |
|
|
30 |
|
| Distance learning |
No |
No |
No |
No |
No |
No |
No |
| Weighted grades |
0.50 |
|
0.50 |
|
|
0 |
|
|
| Unit running the course |
Instytut Elektroniki |
| Course coordinator |
dr inż. Piotr Korbel |
| Course instructors |
dr hab. inż. Sławomir Hausman, dr inż. Łukasz Jopek, dr inż. Piotr Korbel |
| Prerequisites |
Systems of linear equations, Matrices, Matrix calculus. |
| Course learning outcomes |
- EK1 Describe linear systems with the use of the underlying mathematics, including representation of signal/vector spaces and approximation theory in vector spaces
- EK2 Implement basic adaptive filter algorithms
- EK3 Apply orthogonal decomposition using harmonic signals and wavelets
|
| Assessment methods |
EK1 - written test.
EK2 - written test, case study, discussion, laboratory report.
EK3 - written test, case study, discussion, laboratory report.
|
| Programme learning outcomes |
- In-depth knowledge and comprehension of complex concepts and phenomena in the field of electronics and telecommunications, methods and theories explaining the dependences between them, as well as main development trends in electronics and telecommunications; knowledge of the fundamentals of life cycle of electronic and telecommunication devices and systems.
- Ability to apply the knowledge to identify, formulate and solve non-typical problems related to electronics and telecommunications, to plan and to conduct adequate experiments, including measurements and numerical simulations also with the aid of self-developed methods and tools, to analyse and to interpret obtained results so as to draw conclusions.
- Ability to communicate effectively with a diverse range of audiences using specialised terminology from electronics and telecommunications also with the aid of English language at B2+ level according to Common European Framework of Reference for Languages; ability to present and to evaluate different opinions and attitudes and to lead and take part in a debate.
|
| Grading policies |
Lecture - written test, case study. Laboratory - evaluation of laboratory reports. Final grade: average of lecture grade and laboratory work assesment. |
| Course content |
LECTURE Linear algebra, Hilbert spaces, Approximation problem in a Hilbert space, Least squares filtering, Minimum mean square filtering, Wiener-Hopf equation, Matrix factorization, Adaptive linear filters, Modern spectral estimation, Wavelets and their application to signal compression. Case study related to selected application domain.
LABORATORY Implementation of selected problems for PC and/or digital signal processors
OTHER Case study consultation, access to laboratories and technical resources, tests |
| Basic reference materials |
- Tomasz P. Zieliński, „Cyfrowe przetwarzanie sygnałów”, WKŁ, Warszawa, 2005.
|
| Other reference materials |
- Papers available on the Internet (artykuły dostępne w sieci Internet) (e.g. IEEEXplore journals, magazines and conference papers)
- Li Tan, Digital Signal Processing : Fundamentals and Applications, Elsevier, 2007
|
Course workload
|
| Type of classes |
Teaching hours |
| Lecture |
15 |
| Laboratory |
30 |
| Other |
30 |
| Student`s own work |
50 |
| SUM : |
125 |
|
| Comments |
|
| Updated on |
2024-09-16 21:44:18 |