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TLT-5206 COMMUNICATION THEORY, 5-7 cr
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Courses persons responsible
Mikko Valkama
Lecturers
Elena-Simona Lohan
Lecturetimes and places
Per I: Monday 12 - 15, TB219
Per I,II,III: Monday 14 - 17, TC161
Implementations
| Period 1 | Period 2 | Period 3 | Period 4 | Period 5 | Summer | |
| Lecture | 3 h/week | 3 h/week | 1 h/week | - | - | - |
| Exercise | 2 h/week | 2 h/week | 1 h/week | - | - | - |
| Exercise work | 1 h/week | 1 h/week | - | - | - | - |
| Assignment | 6 h/week | 8 h/week | 5 h/week | - | - | - |
| Exam | ||||||
Objectives
The goal is to build basic understanding of signal level issues, signal analysis tools and signal processing techniques encountered and utilized in electrical communications systems.
Content
| Content | Core content | Complementary knowledge | Specialist knowledge |
| 1. | Signals and Communication Systems
** signal spectrum and related concepts; ability to think and understand the behaviour of signals and systems in frequency domain; Fourier transform vs. correlation analysis and spectral density ** random signals and noise; 1st and 2nd order statistics and their significance; probability densities; random signals and spectral density ** signal distortion in transmission; various distortion types and their significance ** transmission system design and the crucial resources and boundaries; bandwidth and power |
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| 2. | Bandpass Signals and Systems
** understanding and expressing bandpass signals; envelope and phase functions; I/Q representation ** real and complex signals; lowpass equivalent signals and systems; analytic signals and Hilbert transform ** use of complex signals in communications systems; analysis vs. implementation |
- analytic signals and Hilbert transform and their significance and applications in communications signal processing in general
- complex filters and filtering |
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| 3. | Analog Modulations
** the concept of carrier modulation; linear modulation techniques; AM, DSB, SSB; VSB; general I/Q modulation ** angle or exponential modulations; phase and frequency modulation ** modulated signals and detection; envelope detector; synchronous detector; frequency detector ** analysis of modulated signals and their performance; spectral contents; operation in noisy channels; effects of interfering signals ** various transmission environments and the selection of modulation |
- detailed mathematical analysis or angle modulations
- modulators and their circuit implementations - detectors and their circuit implementations - radio receivers and architectural aspects |
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| 4. | Signal Sampling
** waveforms and their disrete-time samples; mathematical models for sampling; discrete sequence of numbers vs. impulse train model; spectral contents of sampled signals ** sampling theorem; lowpass vs. bandpass sampling |
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| 5. | Introduction to Digital Transmission Techniques
** discrete information and analog channels; bits, symbols and waveforms ** baseband pulse amplitude modulation (PAM); line coding and Nyquist pulse shaping; symbol alphabets; intersymbol interference (ISI) ** carrier modulation in digital transmission; linear I/Q modulation; digital frequency modulation ** digital vs. analog transmission, pros and cons ** basics of information theory; channel capacity |
Requirements for completing the course
Exam and personal project work. The course can be taken either for 5 or 7 credits. In the basic version (5 cr), the scope and level of the personal project work are more narrow than in the extended (7 cr) version.
NOTICE! *** 7 cr implementation is basically needed for those targeting to study transmission techniques in more details ***
The exam and the project work should be done during the same academic year.
Evaluation criteria for the course
Study material
| Type | Name | Auhor | ISBN | URL | Edition, availability... | Exam material | Language |
| Summary of lectures | Communication Theory -lecture notes | Yes | English | ||||
| Book | Communication Systems | A. B. Carlson, P. B. Crilly, J. C. Rutledge | 0-07-112175-7 | TUT Bookstore, Published by McGraw-Hill | Yes | English |
Prerequisites
| Code | Course | Credits | M/R |
| SGN-1200 | SGN-1200 Signal Processing Methods | 4 | Mandatory |
| TLT-5100 | TLT-5100 Introduction to telecommunications | 5 | Mandatory |
Prequisite relations (Sign up to TUT Intranet required)
Remarks
There will be 1 or 2 extra lecture sessions related to the 7 credit implementation during the 3rd period. More detailed schedule will be announced during the course.
Distance learning
- In information distribution via homepage, newsgroups or mailing lists, e.g. current issues, timetables
- In compiling exercise, group or laboratory work
- In distributing and/or returning exercise work, material etc
- In the visualization of objects and phenomena, e.g. animations, demonstrations, simulations, video clips
- Contact teaching: 50 %
- Distance learning: 0 %
- Proportion of a student's independent study: 50 %
Scaling
| Methods of instruction | Hours |
| Lectures | 72 |
| Exercises | 40 |
| Assignments | 14 |
| Laboratory assignments | 14 |
| Study materials | Hours |
| A. B. Carlson, "Communication Systems" | 20 |
| Other scaled | Hours |
| Preparation for exam | 6 |
| Exam/midterm exam | 4 |
| Total sum | 170 |
Correspondence of content
83001 Communication Theory
| Last modified | 07.02.2007 |
| Modified by | Markku Renfors |