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Computer Engineering

Language of instruction

lithuanian

Qualification degree and (or) qualification to be awarded

Professional Bachelor of Engineering Sciences

Place of delivery

Vilnius, Saltoniškių g. 58-1, LT-08106

Institution that has carried out assessment

Studijų kokybės vertinimo centras

Institution that has performed accreditation, accreditation term

Studijų kokybės vertinimo centras, 6/30/2025

Data provided or updated (date)

4/3/2025

Order on accreditation

SV6-27
More about programme

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Programmes granting same qualifications

Summary of the Profile

General Description:
Aim of the study program:
To prepare highly qualified professional bachelor's degree in engineering science, computer engineering specialists capable of creating and applying innovative, efficient, and sustainable computer, telecommunications, and robotic system technologies, while considering their impact on society and the environment.

Learning outcomes:
A1. To define the fundamental concepts of computer engineering and explain their content.
A2. To apply acquired computer engineering knowledge in practical activities by making decisions and evaluating results.
B1. To collect, organise, and analyse data using digital technologies and automation systems to achieve reasonable, effective, sustainable, and safe engineering solutions.
B2. To analyze, select, and assemble the necessary equipment, tools, and methods to solve engineering problems, considering their impact on society and the environment.
B3. To implement computer engineering projects based on research, measurement, and data analysis results.
C1. To design and implement algorithms using selected software tools.
C2. To select, implement, and adjust specialized software using advanced digital tools and technologies.
C3. To analyze, select, and apply security solutions for computer, telecommunications, and robotic systems.
C4. To create and model computer, telecommunications, and robotic system diagrams using appropriate software.
C5. To implement, test, and manage computer, telecommunications, and robotic systems and networks to ensure their effective operation according to established technical, economic, and environmental requirements.
C6. To diagnose and troubleshoot computer, telecommunications, and robotic systems.
C7. To design and create efficient, sustainable, and safe computer, telecommunications, and robotic systems using advanced design technologies.
C8. To manage and optimise technological work processes in computer, telecommunications, and robotic systems, planning and selecting a marketing strategy or model.
D1. To articulate viewpoints in professional discussions with peers and the public.
D2. To collaborate effectively in teams and independently to solve engineering problems.
D3. To recognize and evaluate the impact of engineering solutions on society and the environment.
D4. To plan, organize, and oversee company activities and electronic product manufacturing processes while adhering to professional ethics and engineering standards.
E1. Communicate effectively and convey professional knowledge in the national and foreign languages.
E2. To select and apply software to solve engineering problems.
E3. To acknowledge the importance of lifelong learning and continually improve knowledge.

Activities of teaching and learning:
Lectures, problem-based teaching, practical workshops, internships, laboratory work, independent studies, team work, seminars, and case studies.

Methods of assessment of learning achievements:
Exam, test, individual work/project, practical tasks, individual tasks, practical work, course project, final project.

Framework:
Study subjects (modules), practical training:
I. General Study Subjects:
1. Business communication,
2. Professional English,
3. Sustainable environment and human safety,
4. Applied research methodology,
5. Law,
6. Management,
7. Project management,
8. Economics.

II. Subjects (modules) of the study field
Compulsory subjects (modules):
9. Physics,
10. Mathematics,
11. Electrical Engineering,
12. Programming,
13. Engineering Graphics,
14. Fundamentals of Embedded Systems,
15. Discrete Mathematics,
16. Signals and Circuits,
17. Electronics,
18. Computer Architecture,
19. Fundamentals of Cybersecurity,
20. Statistics,
21. Communication Technologies,
22. Operating Systems,
23. Digital Data Processing,
24. Digital Devices, CP,
25. Microprocessors and Controllers,
26. Databases,
27. Artificial Intelligence Tools,
28. Internet of Things,
29. Environmental Computing, CP,,
30. Intelligent Control Systems.

III. Practice / Internships:
1. Engineering design Practice,
2. Electronics Practice,
3. Computer Network Installation Practice,
4. Measurement and Metrology Fundamentals Practice,
5. Professional Internship,
6. Final Internship.

IV Final Evaluation:
1. Final project

Specialisations:
Specialization - Computer Systems and Network Administration:
1. Computer Systems Architecture, CP
2. Computer Network Administration,
3. Telecommunications Systems,
4. Cloud Computing,
5. Computer Systems Design, CP,
6. Computer Network and Information Security,
7. Programmable Computer Networks.

Specialization - Telecommunications Systems:
1. Communication Lines,
2. Information Transmission Systems, CP
3. Mobile Networks,
4. Wireless Telecommunications,
5. Telecommunications Technologies and Networks,
6. Telecommunications Network Design, CP,
7. Digital Audio and Video Technologies.

Specialization - Robotics:
1. Programmable Control Systems,
2. Automated Design Systems, CP,
3. Remote Control Systems,
4. Robotic Communications,
5. Robotic Systems, CP,
6. Computer Process Control Systems,
7. Robotic Industrial Systems.

Optional courses:
Students choose a specialization and have the option to select 2 elective courses.

Distinctive features of a study programme:
Computer Engineering is a versatile academic programme developed through research into the current supply of specialists, their standing in the labour market, and an analysis of employer needs. This programme aims to prepare qualified professional engineering graduates who are equipped to address engineering challenges related to the design, implementation, administration, and maintenance of robotic, computer, and telecommunications systems and their networks.

Access to professional activity or further study:
Access to professional activity:
• Analyse robotic, computer and telecommunication systems when solving engineering problems;
• Design, develop and implement robotic, computer and telecommunication systems and networks;
• Program and independently master new programming languages;
• Implement modern artificial intelligence-based technical control algorithms;
• Administer computer systems and networks;
• Design and implement algorithms using selected software tools;
• Install and debug specialised software;
• Apply acquired knowledge in practical activities when making decisions and evaluating results.

Access to further study:
The student has the right to pursue postgraduate studies according to the procedure established by the higher education institution.