Basic information
| Study programme | Telematics and Transport Electronics Systems |
|---|---|
| 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 | 42523 |
|---|---|
| EQF/LQF Level | 6 |
| Study Programme Type | Pirmā cikla augstākās izglītības programma bakalaura grāda un sestā līmeņa profesionālās kvalifikācijas ieguvei, īstenojama pēc vismaz vidējās izglītības ieguves |
| Study programme (short name) | First cycle (professional bachelor’s) study programme |
| Thematic group | Elektronika un automātika |
| ISCED code | 0714 |
| ISCED | Elektronika un automātika |
| Credit points | 240 |
| Degree to be acquired | Professional Bachelor's Degree in Telematics and Electronic Systems for Transportation |
| Qualification to be obtained | Electronics Engineer |
| Study type and form | Full time studies |
| Study lenght | 4 years |
| Language | latvian; english |
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
Graduate of the professional bachelor study programme:
- knows the basics of field-related fundamental sciences necessary for mastering theoretical study courses;
- is proficient at concept level in wired and wireless transport telecommunications networks, key technologies, and standards;
- is proficient at concept level in electrical circuits and signal processing;
- is proficient at concept level in standards and technical regulations of the electronics industry;
- is proficient at concept level in basics of operation and measurement methods, methods of telecommunication networks and systems design and analysis;
- is proficient at application level in transport electronics and telematics equipment principles of operation;
- is proficient at application level in electronic components, analogue, digital and radio electronic devices;
- is proficient at application level in programming of microcontrollers and microprocessors by using high-level languages;
- is proficient at application level in real-time transport radio and navigation systems;
- is proficient at application level in transport intelligent and sensor systems;
- is able to perform experimental data processing for analysis of telecommunications and transport electronic systems operation;
- is able to systematize the related information, summarize, interpret and analyse results of measurements and calculations, prepare summarized reports and present them;
- is able to apply latest technologies and software for the design of transport electronic systems and data transmission systems;
- is able to design electronic equipment and systems, simulate its operation, develop applications and algorithms for solving specific tasks;
- is able to design printed circuit boards and the appropriate technical documentation;
- is able to work with scientific, technical and methodological literature in foreign language;
- can work individually and as a part of a team, to continue learning in the field of transport telecommunications and data transmission, to act in a sustainable, ethical and responsible manner not to harm society and environment.
- knows the basics of field-related fundamental sciences necessary for mastering theoretical study courses;
- is proficient at concept level in wired and wireless transport telecommunications networks, key technologies, and standards;
- is proficient at concept level in electrical circuits and signal processing;
- is proficient at concept level in standards and technical regulations of the electronics industry;
- is proficient at concept level in basics of operation and measurement methods, methods of telecommunication networks and systems design and analysis;
- is proficient at application level in transport electronics and telematics equipment principles of operation;
- is proficient at application level in electronic components, analogue, digital and radio electronic devices;
- is proficient at application level in programming of microcontrollers and microprocessors by using high-level languages;
- is proficient at application level in real-time transport radio and navigation systems;
- is proficient at application level in transport intelligent and sensor systems;
- is able to perform experimental data processing for analysis of telecommunications and transport electronic systems operation;
- is able to systematize the related information, summarize, interpret and analyse results of measurements and calculations, prepare summarized reports and present them;
- is able to apply latest technologies and software for the design of transport electronic systems and data transmission systems;
- is able to design electronic equipment and systems, simulate its operation, develop applications and algorithms for solving specific tasks;
- is able to design printed circuit boards and the appropriate technical documentation;
- is able to work with scientific, technical and methodological literature in foreign language;
- can work individually and as a part of a team, to continue learning in the field of transport telecommunications and data transmission, to act in a sustainable, ethical and responsible manner not to harm society and environment.
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