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Electrical Engineering and Computing

The purpose of the master study programme entitled ELECTRICAL ENGINEERING AND COMPUTING is to enable students to gain relevant knowledge and skills in various scientific and expert fields within the domain of Electrical Engineering and Computing, which is of vital importance for understanding and managing complex processes in modern information and communication systems. This master study programme is oriented towards three main fields: hardware realizations (electronics, energy efficient systems, robotics, and computer systems), software engineering and contemporary communication technologies. In accordance with their affiliations, the students have the opportunity to choose the most appropriate optional programme, courses, and project assignments, as well as to define the topic of their master’s thesis. During the course of lectures, the candidates are given the opportunity to define their thesis topic with the assistance of a mentor. This master study programme is a result of an extensive cooperation of experts from various fields, with the aim to offer new and modern programs that require modern business environment and educate experts who would be able to efficiently respond to the new market demands and generate new innovative solutions.

hatAfter completing their studies, students gain the title of MSc in Electrical Engineering and Computing.

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Study options:
  • S Software Engineering
  • E Computing and Electronics
  • C Contemporary Information Technologies
I semestar

Establishing the epistemological criteria of scientific knowledge of business systems; studying logical and technical research methods and manners science utilizes; taking an attitude towards all the issues of scientific strategy; developing and improving the analytical frame, within which the research is done, and finding the most efficient tools for collecting and selecting the original business systems data.

The students should become conversant with modern telecommunication technologies.

The students should become conversant with modern database systems and tools.

The objective of the course is to introduce students to the methods and tools used in different phases of embedded systems’ design, which encompasses the methods and tools for modeling/specification, alternative solutions analysis, the separation of hardware and software, synthesis (hardware, software and interface), and the verification of embedded systems. They aim is to transfer to students the knowledge of the basic problems of building a system-on-chip, the architecture of the mentioned, as well as design methods.

The aim of this course is to make the students fully conversant with the fundamentals of digital image processing within the spatial and frequency domain. They should be able to use software tools for image processing, and implement their own algorithms for image analysis and processing.

The aim of this course is to make the students conversant with the methods and tools used in the analysis and modeling of speech signal for the purpose of efficient coding, memorizing, transmission and recognition. The students should acquire knowledge in the domain of contemporary speech technologies based on digital signal processing within the time an frequency domain.

The objective of the course is to provide the students with the theoretical and practical knowledge needed for the implementation of the basic algorithms in the field of digital signal processing with the usage of DSP processors.

Research Paper 1 implies work on a project, which evaluates the candidate’s ability to work independently. It is the first relevant assignment that the candidate performs with the mentor’s assistance.

II semestar

The students should gain basic knowledge about access technologies for broadband interactive services distribution. They should become conversant with types and architectures of broadband access networks and appropriate standards and recommendations.

The students should become conversant with the content and procedures for designing technical documentation for telecommunication networks and systems. They should become conversant with the legal and technical regulations. They should be able to design telecommunication networks and systems.

The students should acquire necessary knowledge in the field of smart grid technologies.

The students should acquire academic knowledge regarding materials for the field of modern energy sources. They should be able to connect interdisciplinary knowledge.

The objective of this course is to make students conversant with contemporary trends and future development of the microprocessor architectures. Students learn about the high performance processor and different techniques of parallelism which is implemented on thread-level and process-level.

Research Paper 2 involves project activities that should be finalized through master thesis. It examines the candidate’s ability to perform complex and comprehensive analysis of some problem.

By preparing and presenting research-oriented topic, the students should show independent and creative approach to implementation of theoretical knowledge and practical skills in the field of electrical engineering and computing in their further work.

  • The candidate takes six exams. The first project assignment integrates four courses from the first semester, whereas the second one combines two courses from the second semester.
  • During the course of studies, the candidates formulate their master’s thesis. Project assignments completed in the first and second semester can be integrated into the final master’s thesis.