Welcome, Guest . Login . Türkçe
NİNOVA
COURSES
HELP
ABOUT
Where Am I: Ninova / Courses / Faculty of Electrical and Electronic Engineering / EHB 307E / Course Informations
 
Return to Faculty
Home Page
Course Information
Course Weekly Lecture Plan
Course Evaluation Criteria

Course Information

Course Name
 Turkish Haberleşme 1
English Communication I
Course Code
 EHB 307E Credit Lecture
(hour/week) 		Recitation
(hour/week) 		Laboratory
(hour/week)
Semester 1
 3 3 1 -
Course Language English
Course Coordinator Mustafa Ergen
Course Objectives 1. To teach amplitude and exponential modulation types and their analysis methods.
2. To teach the modeling and effects of noise in communication systems.
3. To teach the pulse modulation techniques.
Course Description Introduction, spectral analysis, transmission through linear systems. Amplitude modulation techniques: Carrier amplitude (AM), double sideband (DSB), single sideband (SSB) and vestigial sideband (VSB)/demodulation. Exponential modulation techniques: Frequency and phase (FM and PM) modulation/demodulation. Frequency division multiplexing (FDM). Stereo transmission. Superheterodyne receivers. Introduction to random processes, noise modeling and AWGN channel. Noise analysis in amplitude and exponential modulation systems. Sampling, pulse amplitude, width and position modulations (PAM, PWM, PPM). Quantization, pulse code modulation (PCM). Delta modulation, differential PCM. Digital PAM, PWM, PPM. Time division multiplexing (TDM).
Course Outcomes Upon successful completion of this course, students will be able to:
1. Explain the fundamental concepts and limitations of communication systems, and analyze the spectral properties of signals.
2. Describe signal transmission through linear systems and identify impairments such as noise and interference in communication channels.
3. Apply amplitude modulation techniques (AM, DSB, SSB, VSB), analyze amplitude-modulated signals in both time and frequency domains, and design corresponding modulator/demodulator structures.
4. Apply exponential modulation techniques (FM, PM), analyze exponentially modulated signals in both time and frequency domains, and design corresponding modulator/demodulator structures.
5. Demonstrate an understanding of frequency-division multiplexing (FDM), stereo transmission, and the principles of the superheterodyne receiver.
6. Evaluate the performance of amplitude and exponential modulation systems under noisy conditions.
7. Explain the sampling theorem and apply it to communication system design.
8. Demonstrate knowledge of pulse modulation techniques (PAM, PWM, PPM, PCM, DM).
Pre-requisite(s) EHB252/EHB252E MIN DD veya EHB206/EHB206E MIN DD
Required Facilities
Other
Textbook
Other References
 
 
Courses . Help . About
Ninova is an ITU Office of Information Technologies Product. © 2026