School of Engineering \ Electrical and Electronics Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Electrical and Electronics Engineering
Identifying the properties of signals and systems and learning the basic operations related to processing signals and transforming them into the frequency domain.
Textbook and / or References
1. A.V. Oppenheim, A.S. Willsky, S.H. Nawab, Signals & Systems, Prentice-Hall
2. James H. McClellan, R.W. Schafer, M. Yoder, Signal Processig First
3. Haykin, B.Van Veen, Signals and Systems, John Wiley & Sons,
The main objective of the course is to gain an in-depth understanding of the mathematical and practical problems associated with continuous and discrete time signals, linear and time invariant systems, convolution and Fourier transform.
1. To learn signals and basic properties of systems
2. To understand how linear time-invariant systems are found and their importance for signal processing
3. To learn how the period of a signal is found and how periodic signals are represented by Fourier series
4. To learn the properties of Fourier series
5. To learn the properties of discrete and continuous time Fourier transforms.
6. To learn how to obtain a discrete time signal from a continuous time signal without any distortion (Sampling)
7. To understand what Laplace and Z-Transforms are, their properties and their relationship with the Fourier transform
8. To design solutions for signal processing problems in different subjects using the basic topics learned in the course and to implement these solutions using MATLAB.
Week 1: Properties of Signals and Systems
Week 2: Linear Time Invariant Systems
Week 3: Representation of periodic signals with Fourier Series
Week 4: Properties of Fourier Series
Week 5: Continuous Time Fourier Transform and its properties
Week 6: Discrete Time Fourier Transform and its properties
Week 7: Discrete Time Fourier Transform and its properties
Week 8: Sampling
Week 9: Laplace Transform
Week 10: Laplace Transform
Week 11: Z-Transform
Week 12: -
Tentative Assesment Methods
• Participation 10 %
• Quizes 30 %
• Midterm 25 %
• Project 10 %
• Final 25 %
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Course Outcome
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B
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A
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A
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A
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A
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