UNDERGRADUATE PROFESSIONAL STUDY OF ELECTRICAL ENGINEERING –
MAIN FIELD: TELECOMMUNICATIONS AND INFORMATION TECHNOLOGY
PERMIT:
Pursuant to the permit of Ministry of Science and Education (Class: UP/I-602-04/18-13/00002; Reg. No.: 533-04-18-0005) of 6 June 2018 and in accordance with a positive accreditation recommendation of the Agency for Science and Higher Education (Class:602-04/18-03/0002, Reg. No.: 355-02-04-18-0005) of 25 May 2018, starting with the academic year 2018/2019, the undergraduate professional study of Electrical Engineering – main field: Telecommunications and Information Technology is carried out at Virovitica College.
DURATION OF THE STUDY PROGRAMME:
Undergraduate professional study of Electrical Engineering – main field: Telecommunications and Information Technology, lasts six semesters. The study programme is worth 180 ECTS credits, which includes internship and submission of the undergraduate dissertation.
ACADEMIC TITLE:
Upon completion of the undergraduate professional study of Electrical Engineering – main field: Telecommunications and Information Technology, the student is awarded the professional title and academic degree of:
Bachelor of Science in Electrical Engineering (bacc.ing.el.)
LEARNING OUTCOMES:
- Applying relevant mathematical models in electrical engineering in a practical way.
- Identifying trends in ICT technologies, with a special accent on communications technologies, in domestic and foreign markets.
- Interpreting the principles of electronic components and circuits
- Interpreting the principles of computer networks, fundamental communication protocols and the protocol stack of the Internet network.
- Being familiar with the ‘classic’ telecommunications network, mobile networks and wireless networks.
- Establishing basic specific qualities and needs of operating systems Windows/Linux/Unix.
- Applying the principles of databases and SQL languages through creation, modelling, administration.
- Interpreting the basic principles of communications network design.
- Comparing the advantages of starting one’s own trade as opposed to starting a public limited company.
- Identifying the basic elements of a technical system on an example.
- Using physical models for solving concrete problems in the domain of electrical engineering.
- Using network monitoring tools and being familiar with network management techniques.
- Developing simple web projects, which include the basic knowledge of HTML, CSS, PHP and Javascript programming languages.
- Assessing which programming language, i.e. technology from MS Visual Studio Tools should be used to for solving a particular problem.
- Analysing the needs of the customer (exploring and detecting customer’s needs, currently available communications network components; examining technological limitations, specific spatial conditions, business environment and upgrading possibilities).
- Communicating with co-workers and customers in Croatian and English.
- Analysing the notion of security on examples of communications technologies.
- Being familiar with the paradigm of cloud computing.
- Establishing the possibility of wireless data transfer.
COURSES
Year: 1 | |||||
Semester: I |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Mathematics 1 | 30 | 30 | - | 6 | CORE |
| Introduction to Computer Application(s) | 30 | 30 | - | 6 | CORE |
| Physics | 30 | 30 | - | 6 | CORE |
| Principles of Electrical Engineering | 30 | 30 | - | 6 | CORE |
| ICT English 1 | 15 | 30 | - | 3 | CORE |
| Introduction to Technical Systems | 30 | - | - | 3 | CORE |
Semester: II |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Mathematics 2 | 30 | 30 | - | 6 | CORE |
| Principles of Electronics | 30 | 30 | - | 6 | CORE |
| Signals and (Transfer) Systems | 30 | 30 | - | 6 | CORE |
| Computer Architecture | 30 | 30 | - | 6 | CORE |
| ICT English 2 | 15 | 30 | - | 3 | CORE |
| Startup Economics | 15 | 15 | - | 3 | CORE |
Year: 2 | |||||
Semester: III |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Computer Networks | 30 | 30 | - | 6 | CORE |
| Digital Electronics | 30 | 30 | - | 6 | CORE |
| Multimedia Systems | 30 | 30 | - | 6 | CORE |
| Databases | 30 | 30 | - | 6 | CORE |
| Introduction to Programming | 15 | 45 | - | 6 | CORE |
Semester: IV |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Operating Systems | 30 | 30 | - | 6 | CORE |
| Telecommunication Networks | 30 | 30 | - | 6 | CORE |
| Cloud Computing IT Systems | 30 | 30 | - | 6 | CORE |
| Programming in .NET Environment | 15 | 45 | - | 6 | CORE |
| Digitalization and E-Document Display | 30 | 30 | - | 6 | ELECTIVE |
| E-Learning | 30 | 30 | - | 6 | ELECTIVE |
| Probability And Statistics | 30 | 30 | - | 6 | ELECTIVE |
Year: 3 | |||||
Semester: V |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Wireless Communications | 30 | 30 | - | 6 | CORE |
| Communication Network Design | 30 | 30 | - | 6 | CORE |
| Introduction to Web Programming | 15 | 45 | - | 6 | CORE |
| Internship | - | - | - | 12 | CORE |
| Network Programming | 15 | 15 | - | 3 | ELECTIVE |
| Wireless Sensor Networks | 15 | 15 | - | 3 | ELECTIVE |
Semester: VI |
|||||
| COURSE TITLE | LECTURES (h) | EXCERCISES (h) | SEMINARS (h) | ECTS | COURSE STATUS |
| Information System Security | 30 | 30 | - | 6 | CORE |
| Telecommunication Network(s) Management | 30 | 30 | - | 6 | CORE |
| Undergraduate Dissertation | - | - | - | 12 | CORE |
| Internet of Things | 30 | 30 | - | 6 | ELECTIVE |
| Location-Based Services | 30 | 30 | - | 6 | ELECTIVE |
| Introduction to Robotics | 30 | 30 | - | 6 | ELECTIVE |