General information
All students activities are rated according to the European Credit Transfer System (ECTS), (European Credit Transfer and Accumulation System, ECTS), so that each semester is awarded 30 ECTS credits. Master applied studies last two years or four semesters and are awarded 120 ECTS points. The studies were conducted in the form of class-based teaching (face-to-face) in Serbian. The study program is realized within the field of technical and technological sciences, the field of electrical and computer engineering.
Qualification
Upon completion of the master applied studies, the student acquires the title of engineer of electrical and computer engineering-master appl.. According to the National Qualifications Framework of the Republic of Serbia (NOKS), the completion of master applied studies is achieved at the seventh level, sub-level one (level 7.1). The requirement for acquiring this level is previously achieved level 6.1 (basic applied studies of 180 ECTS points ).
Teaching and exams
Teaching is performed using one-semester courses. Student activities during the semester (pre-examination obligations), such as colloquiums, seminar work and homework, are scored. The ratio of the number of points earned in pre-examination and exams is determined for each subject individually, with pre-examination obligations participating with at least 30 and up to 70 points. The final exams are placed in the School within the appropriate exam terms, which are: January, February, June, September and October. By completing preliminary exams and taking the exam, a student can earn a maximum of 100 points, with a score of at least 51 points for a grade of 6, a score of 61 points for a grade of 7, a score of at least 71 points for a grade of 8, a score of at least 81 points for a grade of 9 and a score of at least 91 points for a grade of 10.
Goals and outcomes
The aim of the study program Multimedia Engineering is to train students in the field of multimedia and modern communication technologies and digital television. Goals of the study program Multimedia Engineering:
- to enable students to deepen, improve and integrate knowledge as well as to apply acquired knowledge in solving specific tasks and problems in the field of multimedia and telecommunications, thus gaining the foundation for career development and advancement in the profession;
- to transfer general and professional knowledge, to develop creative abilities and to enable students to master specific practical skills in the field of multimedia technologies, modern communication technologies with emphasis on communication technologies in digital television;
- that students acquire advanced theoretical and practical knowledge that will satisfy the current and future needs of employers in the production, educational and service activities in this field;
- that students acquire basic theoretical and practical knowledge used to produce audio, video and multimedia content at a high aesthetic and professional level;
- that students acquire basic theoretical knowledge of the technologies used for the production of distribution, diffusion and reception of radio and television signals;
- that students gain advanced theoretical and practical knowledge of using the device across the entire technical chain from the original scene (sound or visual) to the device for reproducing the received signal;
- that students acquire the theoretical and practical knowledge needed to identify and solve problems in the systems for production and transmission of audio, video and multimedia content;
- that students acquire advanced knowledge necessary for the construction and design of systems for the production and transmission of audio, video and multimedia content;
- to enable students to independently monitor the development of the area, to develop the ability of critical thinking, to acquire the skills of research and analysis, and thereby gain the basis for research and development in the field of multimedia engineering.
- development and application of basic knowledge in specialized areas of multimedia engineering with knowledge of all phases of implementation;
- identifying and solving problems of multimedia engineering;
- keeping pace with the ongoing development of modern systems of multimedia engineering;
- understanding the legal, ethical and social implications of multimedia engineering projects;
- efficient multimedia communication;
- efficient functioning in a multidisciplinary environment;
- training for advanced maintenance, exploitation and installation of multimedia and communication subsystems and systems, which is reflected in the ability to quickly and effectively solve practical practical problems in this field;
- self-monitoring of the development of the area, that is, the introduction and installation of new technologies. Special emphasis is placed on theoretical and practical knowledge in the field of signal systems and technologies.