Electrical and Electronics Engineering

Course Details

KTO KARATAY UNIVERSITY
Mühendislik ve Doğa Bilimleri Fakültesi
Programme of Electrical and Electronics Engineering
Course Details

Course Code	Course Name	Year	Period	Semester	T+A+L	Credit	ECTS
05181852	Numerical Signal Processing	4	Spring	8	3+0+0	5	5

Course Type	Elective
Course Cycle	Bachelor's (First Cycle) (TQF-HE: Level 6 / QF-EHEA: Level 1 / EQF-LLL: Level 6)
Course Language	Turkish
Methods and Techniques	-
Mode of Delivery	Face to Face
Prerequisites	-
Coordinator	-
Instructor(s)	-
Instructor Assistant(s)	-

Course Content

Discrete-time Signals and Systems; Discrete-time Fourier Transform; Discrete Fourier Transform; Discrete-time Processing of Continuous Time Signals; z-transform; Frequency Zone Analysis of Linear and Time-Invariant Systems; Digital Filter Design Techniques

Objectives of the Course

This course is designed to teach how to process digitized information in digital signal processing systems.

Contribution of the Course to Field Teaching

Basic Vocational Courses
Specialization / Field Courses
Support Courses
Transferable Skills Courses
Humanities, Communication and Management Skills Courses

Weekly Detailed Course Contents

Week	Topics
1	Introduction / Signs, Systems and Signal Processing / Classification of Signals / Continuous Time and Discrete Time Markings
2	Sampling Process / Transformation from Analog to Numerical and Numerical to Analytic / Continuous Time Measure Verification Examples and Reclassification
3	Discrete-Time Signals / Discrete-Time Systems / Discrete-Time Linear Time-Invariant Systems Analysis / Differential Equations and Discrete-Time Systems Analysis
4	Implementation of Discrete-Time Systems / Evolution / Correlation of Discrete-Time Signals
5	Frequency Analysis for Discrete-Time Signals / Frequency-Area and Time-Area Marks / Fourier Transform Properties for Discrete-Time Signals
6	Frequency-Field Characteristics of Linear Time-Invariant (DZD) Systems / Frequency Response of DZD Systems / Frequency-Selective Filters of DZD Systems
7	Frequency Field Sampling: Frequency Analysis involving Discrete Fourier Transform (AFD) / AFD Features / AFD
8	Efficient Calculations of AFD: Applications of Fast Fourier Transform Algorithms (HFD) / HFD Algorithms
9	Midterm Exam 1
10	z-Transformation and Analysis Application of DZD Systems / Features of z-Transformation / Inverse z-Transform / z-Field Analysis of DZD Systems
11	Structures for Realization of Discrete-Time Systems / Structure with FIR / Structures for IIR Systems
12	Digital Filter Design / FIR Filter Design / IIR Filter Design from Analog Filters
13	Midterm Exam 2
14	Multirate Digital Signal Processing
15	Final

Textbook or Material

Resources	S. K. Mitra, Digital Signal Processing, , 4th Edition, McGraw-Hill Int. Edition, 2011.
	S. K. Mitra, Digital Signal Processing, , 4th Edition, McGraw-Hill Int. Edition, 2011.

Evaluation Method and Passing Criteria

In-Term Studies	Quantity	Percentage
Attendance	-	-
Laboratory	-	-
Practice	-	-
Homework	-	-
Presentation	-	-
Projects	-	-
Quiz	-	-
Listening	-	-
Midterms	-	-
Final Exam	-	-
Total		0 (%)

ECTS / Working Load Table

	Quantity	Duration
Course Week Number and Time	0	0
Out-of-Class Study Time (Pre-study, Library, Reinforcement)	0	0
Midterms	0	0
Quiz	0	0
Homework	0	0
Practice	0	0
Laboratory	0	0
Project	0	0
Workshop	0	0
Presentation/Seminar Preparation	0	0
Fieldwork	0	0
Final Exam	0	0
Other	0	0
Total Work Load:
Total Work Load / 30
Course ECTS Credits: