Basic information
| Study programme | Smart Computer Technologies |
|---|---|
| Higher Education Institution | Riga Technical University |
| Study field | Information Technology, Computer Hardware, Electronics, Telecommunications, Computer Management, and Computer Science |
All data
| Code of the study programme in accordance with the Latvian Education Classification | 43523 |
|---|---|
| EQF/LQF Level | 6 |
| Study Programme Type | Pirmā cikla augstākās izglītības programma bakalaura grāda ieguvei, īstenojama pēc vidējās izglītības ieguves |
| Study programme (short name) | First cycle (academic bachelor’s) study programme |
| Thematic group | Elektronika un automātika |
| ISCED code | 0714 |
| ISCED | Elektronika un automātika |
| Credit points | 180 |
| Degree to be acquired | Bachelor Degree of Engineering Science in Smart Computer Technologies |
| Qualification to be obtained | — |
| Study type and form | Full time studies |
| Study lenght | 3 years |
| Language | latvian |
Licence information
| Licence number | - |
|---|---|
| Licence date | |
| Licenced till |
Accreditation information
| Accreditation page number | Netiek izsniegta |
|---|---|
| Accreditation date | 29.11.2023 |
| Accreditation duration (in years) | 6 |
| Accreditation till | 30.11.2029 |
Results
Upon completion of the study program, the graduate:
- can use the principles of engineering in the field of smart computer technologies methods in computer graphics, computer vision, computer control and computer network technology;
- be able to explain the theoretical foundations of smart computer technologies, including the essence of algorithmization, data structures, discrete mathematics, systems theory and computer architecture;
- be able to use smart computer technologies in the development of computer systems for enterprises and organizations, including computer networking, computer graphics, computer vision, computer control hardware and software development;
- can plan and ensure the operation of the company's intelligent system;
- can develop and analyze models of complex systems;
- can structure and analyze large amounts of quantitative data;
- can integrate separate systems and develop automation and visualization solutions;
- can communicate with customers about smart computer technologies tasks and solve them using smart computer technologies;
- can carry out research in the field of intelligent computer technologies.
- can use the principles of engineering in the field of smart computer technologies methods in computer graphics, computer vision, computer control and computer network technology;
- be able to explain the theoretical foundations of smart computer technologies, including the essence of algorithmization, data structures, discrete mathematics, systems theory and computer architecture;
- be able to use smart computer technologies in the development of computer systems for enterprises and organizations, including computer networking, computer graphics, computer vision, computer control hardware and software development;
- can plan and ensure the operation of the company's intelligent system;
- can develop and analyze models of complex systems;
- can structure and analyze large amounts of quantitative data;
- can integrate separate systems and develop automation and visualization solutions;
- can communicate with customers about smart computer technologies tasks and solve them using smart computer technologies;
- can carry out research in the field of intelligent computer technologies.
Documents
| Document | Document type | Language |
|---|---|---|
| Expert / Experts joint report | Expert / Experts joint report | english |
| Self-evaluation report | Self-evaluation report | english |
| Self-evaluation report | Self-evaluation report | latvian |
| Commission decision (29.01.2025) | Commission decision | latvian |
History of study programme