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Introduction to Statistical Theory of Communication Systems
Programme of Lectures
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University Electrical
Engineering
Lecture: TBD, Room: TBD Instructor: Prof. B. Panoutsopoulos (Εικονα)
Catalog Course Description: INTRODUCTION TO STATISTICAL THEORY OF COMMUNICATIONS ( 3)
Prerequisite:
Concurrent: Recommended Textbook:
Recommended Handbook:
References:
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Analytical description of the course:
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1st week |
Topics:
A view on the people A view on the applications Modeling of a physical system Techniques for the solution of problems
Applications:
References: |
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Topics: Spectral Analysis
Examples:
Applications:
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3rd week |
Topics:
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4th week |
Topics:
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5th week |
Topics: Random Processes
Examples:
Applications:
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6th week |
Topics: Physical noise sources Mathematical representation of noise
Examples:
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7th week |
Topics: Random signals and noise
Examples:
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8th week |
Topics:
Noise in amplitude modulation noise
Examples:
Applications:
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9th week |
Topics: Review of frequency modulation systems Noise in frequency modulation systems
Examples:
Applications:
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10th week |
Topics: Review of digital modulation systems Noise in digital modulation systems
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11th week |
Topics: Communication systems and noise calculations
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12th week |
Topics: Information theory and coding, I
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13th week |
Topics: Information theory and coding, II
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14th week |
Presentation of Projects 1. Title 2. Review of the field 3. Short description of the process, method, techniques. 4. Figures, photographs that describe the process 5. Description of other processes 6. Advantages of the method 7. Conclusions 8. Copy of the article
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15th week |
Review
Final Examination |
| 16th week |