- Code
- CMP 311
- Name
- Signals Theories
- Semester
- 5
- Lecture hours
- 2.00
- Seminar hours
- 0.00
- Laborator hours
- 2.00
- Credits
- 3.00
- ECTS
- 6.00
- Description
-
General knowledge. The main properties of signals. Fourie analysis of signals. Properties of Furie transform. Modulated signals. Knowledge of systems. Laplace transform and Z transform. Properties of systems. Analog and digital filters. Digital signals. Noises Random signals.
- Objectives
- Java
- Tema
- 1
- Signals and systems. Their classification. Exercises and problems
- 2
- Continuous and linear time invariant systems. Exercises and problems
- 3
- Discrete and linear time invariant systems. Exercises and problems
- 4
- Application of Laplace transform to continuous systems. Exercises and problems
- 5
- Fourie analysis in continuous time systems. Exercises and problems
- 6
- Classification of filters and construction of analog filters. Exercises and problems
- 7
- Application of Z transform in discrete systems. Exercises and problems
- 8
- Midterm exam
- 9
- Furie analysis in discrete time systems. Exercises and problems
- 10
- Implementation and construction of digital filters. Exercises and problems
- 11
- Amplitude modulation of signals. Exercises and problems
- 12
- Frequency and phase modulation of signals. Exercises and problems
- 13
- Digital transmissions of analog signals and noises in analog communications. Exercises and problems
- 14
- Random signals. Power spectral density and random signals in linear time invariant (LTI) systems. Exercises and problems
- 15
- State space analysis of systems. Exercises and problems
- 16
- Final Exam
- 1
- Familiarity with the fundamental concepts of defined and undefined continuous and discrete-time signals and systems.
- 2
- Familiarity with the Laplace transform and its application in continuous-time linear time-invariant systems.
- 3
- Familiarity with the Fourier transform in continuous and discrete-time systems. Familiarity with the implementation and construction of analog filters.
- 4
- Familiarity with the Z-transform in discrete-time systems. Familiarity with the implementation and construction of digital filters.
- 5
- Familiarity with signal modulation (amplitude, frequency, phase). Familiarity with digital transmission of analog signals.
- 6
- Familiarity with random signals and the power spectral density. Basic knowledge of system analysis in space and state.
- Quantity Percentage Total percent
- Midterms
- 1 40% 40%
- Quizzes
- 0 0% 0%
- Projects
- 0 0% 0%
- Term projects
- 0 0% 0%
- Laboratories
- 0 0% 0%
- Class participation
- 0 0% 0%
- Total term evaluation percent
- 40%
- Final exam percent
- 60%
- Total percent
- 100%
- Quantity Duration (hours) Total (hours)
- Course duration (including exam weeks)
- 16 4 64
- Off class study hours
- 14 5 70
- Duties
- 0 0 0
- Midterms
- 1 2 2
- Final exam
- 1 2 2
- Other
- 0 0 0
- Total workLoad
- 138
- Total workload / 25 (hours)
- 5.52
- ECTS
- 6.00