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EHB 433
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Course Information
Course Name
Turkish
Sayısal Filtreler&Sistemler
English
Digital Filters and Systems
Course Code
EHB 433
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
8
3
3
-
-
Course Language
Turkish
Course Coordinator
Müştak Erhan Yalçın
Course Objectives
1. To teach how to find the transfer function of a given filter characteristic.
2. To teach how to design FIR and IIR filter.
3. To teach digital filter realization methods.
4. To teach discretization of continues system.
5. To teach how to represent in observable and controllable form.
6. To teach the concept of stability of discrete systems.
7. To introduce the concept of feedback and its stability.
8. To teach how to design of observer and controller
Course Description
Filtering by discrete (fast) Fourier transformation. Design aspects of digital filters and realization problem finite impulse filter design methods. Finite impulse filter design, i) linear phase filters, ii) windowing, iii) frequency sampling, iv) optimal filter design methods. Infinite impulse response filter design: i) numerical integration methods, ii) impulse invariance methods, iii) bilateral Z-transformation method. Filter design based on least-squares method: i) Pade method, ii) FIR Wiener filter. System identification, inverse-filter design, prediction. Signal processing applications using software realization. State-space representation of discrete time systems. Observable, controllable canonical representation. Controllability, observability, stability. Methods to design control systems. System design by state feedback (pole implementation). State observer design. Design of optimal control systems.
Course Outcomes
1. Compute the transfer function of a given filter.
2. Design of FIR and IIR filters .
3. Realizaion of a digital filter on software and hardware.
4. Discretize a continuous systems and represent in observable and controllable form
5. Evaluate stability of a system.
6. Design of observer.
7. Design of the controller for a given poles.
Pre-requisite(s)
Lineer Algebra and Applications, Signal and Systems
Required Facilities
Other
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