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Presentation
Presentation
It is a mandatory course for the students of the Telecommunications branch of the degree e Electrotecnical Engineering and the students of the degree in Informatics, Networks and Telecommunications Engineering. It is the discipline where students first meet the fundamental concepts of digital communication.
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Class from course
Class from course
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Degree | Semesters | ECTS
Degree | Semesters | ECTS
Bachelor | Semestral | 6
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Year | Nature | Language
Year | Nature | Language
2 | Mandatory | Português
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Code
Code
ULHT2531-14692
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Prerequisites and corequisites
Prerequisites and corequisites
Not applicable
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Professional Internship
Professional Internship
Não
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Syllabus
Syllabus
Base band digital transmission systems. Optimum receiver: minimum probability of error, matched filter. Intersymbol interference (ISI), cancellation of the ISI. Introduction to detection theory: signal space, optimum receivers. Introduction to estimation theory: amplitude and phase estimation, performance measures. Basic digital modulations: binary ASK, PSK and FSK. Optimum receivers and probability of error. Memoryless discrete channels. Channel capacity. Channel coding theorem. Capacity of the AWG channel. Channel coding: control of transmission errors. Linear block codes. Hamming codes.
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Objectives
Objectives
The main goal is to transmit to the students the basic concepts of telecommunications, as well as to introduce the main mathematical and computational tools needed for their treatment. The plan is to: - Present the basics of digital modulations, intersymbol interference and channel coding. In this way the students will be able to understand, develop and design digital communication systems. - Develop a broad knowledge of concepts and principles of telecommunications, which permits the student to apply this knowledge to systems that are governed by the same principles. - Learn, and show how to use, the tools necessary for treatment of numerical sequences. Their application will allow the students to perform a higher-level analysis, such as, e.g., the statistical treatment of a computer network, or design and development of new algorithms.
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Teaching methodologies and assessment
Teaching methodologies and assessment
Supply of a set of study material, in digital form, namely, slides and exercices. Use of simulation software.
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References
References
S. Haykin, M. Moher, Introduction to Analog and Digital Communications, John Wiley & Sons, 2ª Ed., 2007. S. Haykin, Communication Systems, John Wiley & Sons, 5ª Ed., 2013.
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Office Hours
Office Hours
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Mobility
Mobility
No
