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Laboratory of Embedded Communication Systems (COMES) - Courses
Introduction to Digital Logic
Instructors:
Antonakopoulos Theodore, Fakotakis Nikos
Semester: 1
Description:
Introduction to digital systems. Number systems and codes. Base Conversion.
Binary arithmetic. Coding. Two's complement addition and subtraction. Boolean Algebra. The Huntington
Postulator. De Morgan's theorem. Switching Function. Combinational circuit analysis and synthesis.
Combinational circuit minimization. "Don’t-Care" input combinations, Representation of
product terms. Prime implicants. Karnaugh maps. Quine-McClusky Algorithm. Combinational Logic. Design of
Switching Circuits. Adders. Comparators. Multiplexers. Demultiplexers. Encoders/Decoders. Introduction to
sequential circuits. Flip-flops, Memory.
Embedded
Communications Systems
Instructor:
Antonakopoulos Theodore
Semester: 9
Description: Introduction to Embedded Systems. Architecture issues
and codesign methodologies for communication systems. Modeling of Embedded Communication Systems. Basic
concepts, performance evaluation and validation. Examples of communication systems modeling. The baseband
case. Communication protocols design methodology. Specifications, functional description and implementation.
Protocol processing and transmission algorithms implementation. Real-time operating systems. High level
description languages and validation procedures. Coding, modulation and synchronization. Channel estimation.
Synchronization and inter-modules communications. Performance analysis and optimization. Interoperability
issues. Examples of integrated communication devices and systems.
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