| Message and Signal Processing |
| Abbreviation: OBRPOR
|
Load: 30(L)
+ 30(E)
+ 0(LE)
+ 0(S)
+ 0(FLE)
+ 0(PEE)
|
| Lecturers in charge: |
dr. sc. Niko Jelušić |
| Lecturers: |
Dominik Cvetek mag. ing. traff.
(
Exercises
)
izv. prof. dr. sc. Niko Jelušić
(
Exercises
)
|
| Course description: Generally about messages and signals. Noise. Noise sources and types. Impact of noise. Speech and sound. Electroacoustic conversion.
Speech signal. Speech signal analysis. Voice signal digitalization. Picture. Image analysis and synthesis. Optoelectrical
conversion. Video signal. Video signal analysis. Video signal digitalization. Data. Codes. Transmission codes and signal analysis.
Amplitude modulation. Argument modulation. Pulse code modulation. Digital modulation techniques. Complex digital modulation
techniques. Signal amplifiers. Signal Generators. Filters. Maintaining the signal level. Synchronization of digital devices
at signal level. Digital signal regeneration. Solving numerical tasks from specific teaching unit and examples of telecommunication
circuit design: Signal to noise ratio. Electroacoustic converters. ASCII code. Entropy coding. Transmission Codes. Nyquist
criteria. AM and FM spectrum. AM and FM modulators examples. Digital processing and circuit examples. Discrete modulations:
symbol rate and bit rate, constellation diagram, spectral efficiency. Structure, characteristics and examples of oscillator
and filter performance. Clock extraction by filtration and phase-locked loop method.
|
| Compulsory literature: |
| 1. |
Jelušić, N.: Autorizirana predavanja (http://e-student.fpz.hr) |
| 2. |
Modlic, B., Modlic, I.: Modulacije i modulatori, Školska knjiga, Zagreb, 1995. |
| Recommended literature: |
| 3. |
Ziemer, R. E., Tranter, W.H., Principles of Communications, 7th edition, Wiley, 2014. |
| 4. |
Hioki, W.: Telecommunications, Prentice Hall, 1998. |
| 5. |
Carne, E.B.: Telecommunication primer; data, voice and video communication, Prentice Hall, 1999. |
|