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Digital Communications

The course is not on the list Without time-table
Code Completion Credits Range Language
A8B37DCM Z,ZK 5 4P+0C Czech
During a review of study plans, the course A8B37DCMA can be substituted for the course A8B37DCM.
It is not possible to register for the course A8B37DCM if the student is concurrently registered for or has previously completed the course A8B37DCMA (mutually exclusive courses).
Garant předmětu:
Department of Radioelectronics

The course provides fundamentals of digital communications theory: modulation, classical coding, channel models, and basic principles of decoding. The exposition is systematically built along the theoretical lines which allow to reveal all inner connections and principles. This allows students to develop the knowledge and use it in an active way in a design and construction of the communication systems. The course provides a necessary fundamental background for subsequent more advanced communications theory courses.



Syllabus of lectures:

1. Digital modulation and coding, basic properties, classification.

2. Digital memoryless modulation - linear/nonlinear (PSK, QAM, FSK, ?).

3. Digital modulation with memory - linear/nonlinear (TCM, CPFSK, CPM, ...).

4. Space-time, adaptive and multiplexing (ODFM) digital modulations.

5. Power spectrum density of digitally modulated signal.

6. Basic principles of channel coding.

7. Linear codes on GF. Block codes.

8. Convolutional codes, transfer function.

9. Codes in constellations space, coded modulation, TCM.

10. Basic channel models (AWGN, linear).

11. Demodulation and decoding, minimum error probability decoder.

12. Decoding of FSM codes, Viterbi algorithm.

13. Error performance of decoder, union bound, pairwise error probability.

14. Elements (preview) of advanced coding/decoding, multi-user communications.

Syllabus of tutorials:
Study Objective:
Study materials:

1. J. G. Proakis: Digital Communications. McGraw-Hill. 2001

2. D. Tse, P. Viswanath: Fundamentals of Wireless Communications, Cambridge University Press, 2005

3. E. Biglieri: Coding for Wireless Channels, Springer, 2005

4. B. Vucetic, J. Yuan: Space-Time Coding, John Wiley & Sons, 2003

5. Goldsmith: Wireless communications, Cambridge University Press, 2005

6. B. Vucetic, J. Yuan: Turbo codes - principles and applications, Kluwer academic publishers, 2000

7. Oppermann I., Hamalainen M., Iinatti J.: UWB theory and applications, John Wiley & Sons, 2004

8. Meyr, H., Moeneclaey, M., Fechtel, S. A.: Digital Communication Receivers-Synchronization, Channel

Estimation and Signal Processing. John Wiley. 1998

9. Mengali, U., D'Andrea, A. N.: Synchronization Techniques for Digital Receivers. Plenum Press. 1997

10. R. E. Blahut: Algebraic codes for data transmission, Cambridge University Press, 2006

11. T. M. Cover, J. A. Thomas: Elements of Information Theory, John Wiley & Sons, 1991

12. S. M. Kay: Fundamentals of statistical signal processing-estimation theory, Prentice-Hall 1993

13. S. M. Kay: Fundamentals of statistical signal processing-detection theory, Prentice-Hall 1998

Further information:
No time-table has been prepared for this course
The course is a part of the following study plans:
Data valid to 2024-05-29
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