Study location	Hungary, Budapest
Type	Undergraduate Programs, full-time
Nominal duration	7 semesters (210 ECTS)
Study language	English
Awards	BSc

Tuition fee	€2,900 per semester
Application fee	€150 one-time
Registration fee	€100 one-time

Entry qualification

High school / secondary education (or higher) secondary school final certificate/ high school diploma secondary school transcripts high school certificate in Mathematics and Physics copy of the photo-page(s) of your passport motivation letter CV in English The entry qualification documents are accepted in the following languages: English / Hungarian. Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original. Original and translated documents are to be shown in person as part of the registration process in Hungary.

Language requirements

English Accepted proof of proficiency: FCE or CAE, IELTS 5.5+ or TOEFL 69+ Intermediate command of English is required. Please note that all applicants need to participate in an online admission interview. During this interview, you will need to prove your language skills and the admission committee will make the decision based on this performance. If you do not reach the necessary language level, you won’t be granted admission even if you have previously obtained language certificate. Applicants who do not meet the minimum language requirements have to start their studies with a University Foundation Program.

More information	budapestcollege.hu/..cs-engineering-bsc-ou  youtube.com/watch?v=eTcuJeZ0AG8

Overview

In 2022, Óbuda University was ranked 186th in the QS EECA ranking and 301–350th in the Times World University Rankings (Young University Rankings).

Óbuda University is the number one practice-oriented technical University in Budapest, Hungary. Their engineering and applied science departments and programs are among the nation’s oldest with 140 years of rich tradition, established in 1879.

Óbuda University is an excellent institution in any Engineering or IT field, but they are most famous for their achievements and leading role in the field of robotics. They are the founder and current leader of the Central European Living Lab for Intelligent Robotics (CELLI), a network of 18 robotics centers and SMEs form 7 countries.

The University has world-class research and education since Óbuda University has
8 internationally recognized research, innovation and service centres including
- Antal Bejczy Center for Intelligent Robotics (iROB)
- Bio-Tech Research Center,
- Physiological Controls Research Center and
- SmartLab Center.

ÓU students have great achievements in several national and international competitions, such as at the Design Challenge Robotics Building, Bosch Electromobil, Mitsubishi-Scholarship, Pneumobil, Shell Eco-marathon, Hajós György Mathematics and PLC Control Engineering Programing Competitions, Spaghetti Bridge Building.

Famous Alumni
József Galamb – The first world-famous student was József Galamb, designer of the FORD Model T.
Charles Balough- President of the Hercules Motor Manufacturing Company, designer of Ford T-modell
Rudolf Emil Kálmán – electrical engineer, mathematician, inventor of Kálmán filter

ÓU students are involved in professional practice at foreign partners annually; students are required and encouraged to participate in active research and design in the project laboratories and to develop their abilities to do independent research.

The aim of the course is the training of mechatronics engineers who, in possession of the acquired complex skills in natural sciences, electronic, mechanical and computer engineering as well as economics, will be capable of supervising and managing processes of manufacturing, assembly and quality regulation based on the use of mechatronic devices and equipment, constructing general mechatronics devices and operating as well as maintaining mechatronics systems, and who also possess well-founded theoretical knowledge.

Mechatronic engineers are capable to integrate mechanical engineering with electronics, electrotechnics and computer control synergically; to complete routine design tasks related to mechatronic equipment and processes and smart machines, as well as to operate and maintain them; to introduce and apply mechatronic technologies; to organize process and production control in an energy efficient and environmentally sound manner; and to perform general complexity tasks of technical development and design, also taking labour market demands into consideration. They are prepared to continue their studies at a Masters course.

Programme structure

Specialization:
- Industrial robot systems

Career opportunities

With regard to prospective specializations as well, those with a degree of BSc in Mechatronic Engineering will be able to

- consider the management of technical, economic and human resources in a complex manner
- assess and take into consideration the social impact of engineering activity
- perform innovative thought and independently follow developments in science and technology
- integrate skills in the respective fields of electronics, mechanical engineering and informatics
creatively apply devices such as sensors, actuators or controls in mechanisms
globally design complex systems.