Name of qualification Name of qualification: Diplomirani inženir telekomunikacij (un)/diplomirana inženirka telekomunikacij (un)Add to comparison
Translated title (no legal status) Translated title: Bachelor of Science in telecommunications engineering
Type of qualification Type of qualification: Academic bachelor's degree
Category of qualification Category of qualification: Educational Qualification
Type of education Type of education: Academic bachelor's education
Duration Duration of education:
3 years
Credits Credits: 180 credits
Admission requirements Entry conditions:
  • Matura or
  • vocational matura in any secondary school programme,
  • school-leaving examination (prior to 1 June 1995) under any four-year secondary school programme
ISCED field Field:
Engineering, manufacturing and construction
ISCED subfield subfield: electronics and automation
Qualification level

SQF Level: SQF 7
EQF Level: EQF 6
EOVK Level: First level

Learning outcomes:

The qualification holder will be able to:

(general competences)

  • apply knowledge and methods, skills and modern tools in the pursuit of their occupation,
  • use current knowledge and adapt to progress in the field of the application of mathematical/scientific, engineering and technological knowledge,
  • think abstractly and recognise analogies and basic patterns,
  • design and carry out experiments, analyse and interpret data and use the results obtained to improve processes,
  • design a system, component or process that will meet specified requirements,
  • work in multidisciplinary teams,
  • identify, formulate and resolve problems and anticipate the consequences of solutions,
  • communicate effectively using professional and established terminology in their mother tongue and a foreign language,
  • recognise the need and capacity for learning up to the end of a professional career (lifelong learning),
  • demonstrate awareness of their own ethical and professional responsibility, and a commitment to quality, timeliness and constant improvement,
  • recognise current narrow professional issues and local and global socioeconomic issues.

(subject-specific competences)

  • demonstrate familiarity with and apply the mathematical concepts, rules and methods that are the basis of the transfer and processing of information,
  • demonstrate familiarity with and apply the physical concepts and rules that are the basis of the transfer of information,
  • demonstrate familiarity with and apply the basic principles of the transfer of various types of information (data, speech, images, etc.),
  • demonstrate familiarity with hardware for the creation, transfer, reception and processing of information (transmission media, electronic circuits, transmission systems, network hubs and terminal equipment, etc.),
  • design, develop and implement hardware components for the creation, transfer, reception and processing of information,
  • demonstrate familiarity with software for the creation, transfer, reception and processing of information (communication protocols, image and speech processing, telecommunications services, user interfaces, etc.),
  • design, develop and implement software components for the creation, transfer, reception and processing of information,
  • plan and implement telecommunications networks on a limited scale,
  • participate in the analysis of the functioning, management and maintenance of telecommunications systems, networks and services,
  • keep abreast of new developments in the field of communications technology products and services, access their suitability for use and use them,
  • demonstrate understanding of the influence of telecommunications solutions on society in the narrow sense and in the broader, global sense,
  • successfully continue studies at the postgraduate level in the field of communications technologies, and also in other fields that can contribute to supplementing knowledge in the fields of engineering, management and enterprise.

Assesment and completion:

Students' knowledge is assessed by means of practical exercises and seminar papers, and also via products, projects, performances, services, etc. and by examinations. Examination performance is scored as follows: 10 (excellent); 9 (very good: above-average knowledge but with some mistakes); 8 (very good: solid results); 7 (good); 6 (adequate: knowledge satisfies minimum criteria); 5–1 (inadequate). In order to pass an examination, a candidate must achieve a grade between adequate (6) and excellent (10).

Progress:

In order to progress to the second year, students must have passed first-year examinations totalling at least 54 ECTS credits.
In order to progress to the third year, students must have passed all first-year examinations and second-year examinations totalling at least 48 ECTS credits.

Diplomirani inženir telekomunikacij (un)/diplomirana inženirka telekomunikacij (un)

SQF 7

EQF 6

The Career path tab shows the possible career path within the selected qualification area, which is not the only one and is not mandatory. The actual transition between qualifications, which is determined by law, is defined in the Transition tab.

Magister inženir elektrotehnike/magistrica inženirka elektrotehnike

Magister inženir telekomunikacij/ magistrica inženirka telekomunikacij

SQF 8 / EQF 7

Progression:

Second-cycle master's study programmes (SQF level 8)

Conditions for obtaining a public document:

To complete their studies, students must complete all course units prescribed by the study programme.

Awarding body:

Faculty of Electrical Engineering and Computer Science, University of Maribor

URL

Awarding body URL:
https://feri.um.si/en/
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