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Electrical Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The aim of the electrical engineering program is to prepare highly skilled electrical engineering specialists to meet the needs of the latest knowledge and information-based economy and to provide future specialists with the knowledge and skills necessary for the global engineering market activity, understanding the influence of engineering decisions and preparing a wide range of erudition for creative and critical thinking in electrical engineering and robotics specialists and ensuring the principles of lifelong learning.
Learning outcomes:
Knowledge:
1. Knows and realize the principals of natural sciences (physics, chemistry) and mathematics necessary for the understanding of the fundamentals of electrical engineering – electrical circuits, their elements, analysis and synthesis of electrical systems;
2. Knows and systematically understands the basic principles and concepts of electrical engineering, electronics, microprocessor theory, mechatronics, electrical machines and gears, electrical and renewable energy and automatic control, electrical and control circuit processes corresponding to the study field of electrical engineering;
3. Know and are able to relate the main subjects of the study program such as automatic control, control of the systems, controllers, electrical drives, measurement techniques, electrical materials, industrial automatics and programing, industrial communication and robotics and has knowledge of energy efficiency;
4. Know a broader multidisciplinary context of engineering and able to apply the methods and processes of philosophy, mechanical engineering, information technologies, material science, law, economics and project management and of other fields of science.
Engineering analysis:
1. Able to apply one‘s knowledge and understanding to the identification, formulation, and analysis of the problems arising in the activities of electrical and other industrial enterprises and to the propose solutions by using appropriate methods and solution strategies;
2. Able to use knowledge and understanding for the analysis and solution of engineering problems of electrical engineering by means of the choice and application of appropriate most recent analytical and digital-computer solution methods and relevant experimental and industrial equipment;
3. Able to choose innovative analytical and modeling methods techniques and apply them in professional work in industrial and business enterprises regarding the electrical engineering field.
Engineering design:
1. Able to apply the acquired knowledge and understanding of electrical engineering to the problems solutions in the development and implementation of interdisciplinary projects oriented towards the development of new products and systems and meeting the set requirements;
2. Understand design methodologies and able to apply them to the designing of the new electrical systems, their elements and control of the systems. Also able to model the work of the designed systems.
Investigations:
1. Able to define, understand, and find the scientific and professional information necessary for the solution of electrical engineering problems by using different sources of databases patents, technical documentation standards, diagrams and other information sources;
2. Able to plan and carry out physical and virtual experiments for the analysis and synthesis of the systems and to process and evaluate the obtained data, and to provide conclusions;
3. Able to use various experimental, laboratory and equipment of professional work including the selection and creation of connection diagrams, adjusting the parameters, using the software based experiment equipment in electrical engineering study program field.
Engineering practice:
1. Able to choose, to apply appropriate techniques, means, and equipment to the implementation of engineering solutions for electrical engineering systems, know the internal design working principles and functions of the electrical equipment and is able to able to use the equipment;
2. Able to combine the electrical engineering theoretical and applied knowledge to solve the problems of electrical systems’ connections, control, analysis and diagnostics;
3. Aware of ethical, environmental and commercial requirements of engineering activities;
4. Know principles of organization of engineering activity in electrical engineering field; understand their interaction, able to assess engineering activities, work, electrical safety and fire safety and environmental protection interactions.
Personal and social skills:
1. Able to work in a team, developing and implementing solutions for industrial enterprises, to organize personal and group activities;
2. Able to work effectively and communicate with engineers and society in national and international level in oral and written form.
3. Able to make innovative decisions to develop new products using a holistic approach in evaluating ethics and potential impact on society and the environment;
4. Understand electrical engineering projects development and business management aspects, as well as successful technology solution principles based on economic expediency;
5. Understand the significance of lifelong learning and preparedness for it.
Activities of teaching and learning:
- Lectures
- Distant Lectures and Practices
- Workshops
- Laboratory
- Seminars
- Individual consultations
- Case studies
- Course Projects
- Internship
Methods of assessment of learning achievements:
The University applies cumulative grading in order to ensure objective evaluation, active students’ participation during the semester and their ability to apply theoretical knowledge in practice. Cumulative grading final evaluation consists of interim course assignments (test, individual work, paper, laboratory work defense, and etc.) and final exam grades. If the student fails the interim course assignments and does not make to transition grade−minimal grade of determined interim course assessments−he is not allowed to take the final exam. Each study program is completed by defending final thesis (project). A ten-point grading system is used at the University.
Framework:
Study subjects (modules), practical training:
Natural sciences and mathematics subjects (Higher Mathematics, Probability Theory and Mathematical statistics, Information Technologies, Physics, General Chemistry).
Social and Humanities science subjects (Economics, Engineering and Business Project Management, Philosophy, Professional Language, Foreign Language).
Engineering subjects (Theoretical Mechanics, Mechanics of Materials, Materials Science, Material Engineering, Engineering and CAD Graphics, Environmental Engineering, Embedded Systems Programming, Internet of Things Systems Programming).
Electrical Engineering Study Field courses (Analog and Digital Circuits, Synthesis and Simulation of Electrical Circuits, Electromagnetic Field Theory, Electronics and Course Project, Electrical Machines and Course Projects, Design of Electrical and Electronic Schematics, Microprocessors and Microcontrollers, Electrical Apparatus, Optoelectrical Systems, Sensors, Electrical Drives Theory, Basics of Control Systems of Electrical Drives, Electrical Drives of Ships and Ports, Automatic Control Theory and Course Project, Programmable Logic Controllers and Industrial Communication, Robotic systems, Digital Methods in Electrical Engineering, Signal Processing, Renewable Energetics and Energy Efficiency, Electrical Transport Systems, Smart Grids, Electrical Energetics, etc.).
Engineering design subjects (Engineering Graphics With CAD, Electrical System Course Project, Electrical Machines and Course Projects, Electronics and Course Project, Automatic Control Theory and Course Project, Electrical Drives of Typical Mechanisms and Course Project, Bachelor Final Thesis);
Practical and research activity training courses (Internship, Bachelor Final Thesis, Automated Electrical Drives Control Systems and Modeling, Metrology and Experimental Technique, Human Safety and Electrical Safety, Electrotechnical Materials and other study subjects containing laboratory work).
Specializations:
None
Optional courses:
- Professional Foreign Language;
- Elective General Course;
- Free Elective Subject;
- Digital Methods in Electric Engineering;
- Law and Standards in Electroenergetics;
- Basics of Control Systems of Electrical Drives;
- Electrical Drives of Ships and Ports;
- Electrical Drives of Typical Mechanisms and Course Project;
- Automated Electrical Drives Control Systems and Modeling;
- Embedded Systems Programming;
- Signal Processing;
- Robotic Systems;
- Robotics Embedded Systems;
- Internet of Things Systems Programming;
- Electrical Transport Systems;
- Electrical Energetics;
- Smart Grids;
- Energy Systems of Ships and Port.
Distinctive features of a study programme:
The graduate of electrical engineering program knows and understands the basic principles of electrical engineering, electrical energetics and robotics, formulates and solves problems of the ability to apply the basic engineering principles and analytical methods, understands the engineering design process and is able to design, understands the main factors of the business environment - marketing, finance and investment evaluation, has communication, computing, use of information technologies, project management, work team and other transferable skills.
Access to professional activity or further study:
Access to professional activity:
The acquired qualification gives the right to work in machinery, equipment, industry, energy, transport and other enterprises by leading specialists, technicians, automation, electrical energetics and robotics specialists, designers, as well as in scientific laboratories, private business, and experimental activities and also port companies. After acquiring practical and management, experience can work at enterprises and their subdivisions as managers, project managers, etc.
Access to further study:
Has the right to apply for postgraduate studies at a higher education institution in accordance with the established procedure.
