Faculty of Mechanical Engineering offers following courses in English for international full time students:
-Duration: 3.5 years (7 semesters)
-Credit gain: 210 ECTS
-Tuition / semester: 1400 EUR
The graduate of the course has knowledge of automatic control, robotics, computer science, signal analysis, digital and microprocessor technology, electronics.
He knows how to use computing equipment and professional engineering software for designing control systems and operating logic controllers, microcontrollers, computer networks, numerically controlled machine tools and robots.
Employment prospects:
An automation and robotics graduate is prepared to design, commission and operate automation and robotics systems in a variety of applications.
Specialty – mobile robots
Mobile robotics is one of the fastest growing fields of technology. The acquired qualifications facilitate the graduate’s application of robots, including mobile robots, in industrial and service enterprises, and enable the design of unmanned vehicles and flying objects, aquatic robots, medical robots, social robots and toy robots. Employment prospects: Graduates will find employment in many modern service and industrial companies.
The graduate of the specialty has knowledge of measurement, drive and control systems, industrial networks, master control and visualization systems. He/she is able to program, commission and operate automation and robotics systems, consisting of cooperating sensors, operator panels, actuators, controllers, regulators, industrial robots, visualization systems for automated production lines, automatic control systems, robotic assembly cells, robotic welding stations and others.
Employment prospects: The qualifications possessed by a graduate of this specialty enable him to take up employment in all enterprises using automation and robotics systems, as well as wherever knowledge of modern computer techniques is required
Course description cards, semester 1 (PDF, 254 KB, otworzy się w nowej karcie)
Course description cards, semester 2 (PDF, 172 KB, otworzy się w nowej karcie)
Course description cards, semester 3 (PDF, 209 KB, otworzy się w nowej karcie)
Course description cards, semester 4 (PDF, 186 KB, otworzy się w nowej karcie)
Course description cards, semester 5 (PDF, 260 KB, otworzy się w nowej karcie)
Course description cards, semester 6 (PDF, 275 KB, otworzy się w nowej karcie)
Course description cards, semester 7 (PDF, 218 KB, otworzy się w nowej karcie)
The main objectives of this undergraduate program are related with the preparation of a graduate for independent, creative engineering work, research work in solving interdisciplinary technical and organizational problems with the use of computer methods and techniques, and for managing human resources. These studies are to provide the education of specialists with the skills to use interdisciplinary knowledge in the field of simulation, design, production, programming and operation of machines and systems. A graduate is prepared to solve simple problems in industrial applications in the field of mechanics and machine construction, computer science, electronics as well as automation and robotics. A graduate can design complex applications based on programmable logic controllers and microprocessor systems.
Specializations that will be implemented in the first degree of studies:
will allow for the education of the future master engineer who can meet the specific requirements of employers.
After graduation, graduates are prepared to work in:
This graduate program is addressed to graduates with BSc in Engineering, primarily for alumni of BSc in Mechatronics, Mechanical Engineering, Automatics and Robotics program or similar (after complementing curriculum disparities).
The main objectives of the second-cycle education in the field of mechatronics are related with the preparation of graduates for independent, creative engineering work, research work in solving interdisciplinary technical and organizational problems with the use of computer methods and techniques, and for managing human resources. These studies are to provide the education of specialists with the skills to use advanced knowledge in the field of mechanics and machine construction, computer science, automation and robotics.
Specializations that will be implemented in the second cycle of full-time studies will allow for education a future master engineer able to meet the specific requirements of employers.
A graduate of this specialization has knowledge in the field of mechanics and machine construction, computer science and electronics, automation and robotics. A graduate is prepared to integrate and implement intelligent systems mechatronic. The acquired qualifications enable to construct, build, program and commissioning and testing of mechatronic systems, in particular the selection of appropriate methods and devices for their production. The qualifications of a graduate of this specialization allow to work in companies designing, assembling and integrating intelligent systems as well as in companies supervising the work and servicing these systems.
A graduate of this specialization has extensive knowledge in the field of mechanics and machine construction, computer science, electronics as well as automation and robotics. A graduate is prepared to use methods and programs computer in the design and manufacture of machines and devices with the use of components mechatronic. A graduate will find employment as a specialist in the field of comprehensive machine and industrial system design and servicing.
After graduation, graduates are prepared to work in:
Master of Science in Biomedical Engineering
This graduate program is addressed to graduates with BSc in Engineering, primarily for alumni of BSc in Biomedical Engineering program or similar (after complementing curriculum disparities).
Specializations that will be implemented in the second cycle of full-time studies will allow for education a future master engineer able to meet the specific requirements of employers.
A graduate of the specialisation is prepared to provide engineering support for medical activities at an advanced level, having mastered the knowledge and skills that enable the analysis of the impact of medical devices on a living organism. This preparation enables analysis of the processes occurring between the implant and the tissue environment and the analysis of the mechanisms of these interactions. This preparation is made possible by learning about issues related to biosensors, methods of modelling and computer simulation, which directly translates into additional knowledge and skills related to advanced techniques of designing and manufacturing medical devices. Learning the methods of planning research experiments enables a systematic approach to learning and discovering the laws and researching phenomena at the interface between man and medical device. In addition, the use of artificial intelligence methods gives the potential to develop products related to biomedical engineering with a high level of innovation.
The graduate of the specialisation is prepared for employment in companies related to the industry producing modern medical devices, in particular products for direct contact with a living organism. Graduates are also prepared to work in scientific and research units that study phenomena/processes occurring in the human body and study phenomena at the interface between man and medical device, which are designed to enrich medical knowledge.
The graduate of the second-cycle studies is fully prepared to continue his/her professional development and to start education in a doctoral school.
A graduate of the specialisation has knowledge and skills in the field of IT support for activities undertaken in the field of medicine. This is due to the specific competences acquired during the studies, e.g. in the field of advanced programming methods, including mobile devices, medical data mining, machine learning or bioinformatics. A graduate prepared in this way has the skills to design, perform and implement computer-aided medical diagnostics systems. In addition, learning the methods of planning research experiments enables a systematic approach to learning and discovering laws and studying phenomena between man and medical device, and mastering advanced methods of artificial intelligence gives the potential to develop products related to biomedical engineering with a high level of innovation.
A graduate of the specialisation can find employment in, among others: in the field of IT support in public healthcare units, in companies creating software for the implementation of medical procedures and activities, as well as in the implementation of software for advanced diagnostic equipment, including mobile, and in research and development facilities in the field of biomedical engineering.
The graduate of the second-cycle studies is fully prepared to continue his/her professional development and to start education in a doctoral school.
Second-cycle studies for the Master’s degree in Engineering in the field of automatic control and robotics.
Second-cycle studies for the Master’s degree in Engineering in the field of automatic control and robotics will let you acquire skills and knowledge in: optimization methods, control theory, real time controllers, artificial intelligence systems, signal and image processing, control systems for robots, identification of control systems, implementation of control algorithms.
Elective modules include:
Course description cards, semester 1 (PDF, 221 KB, otworzy się w nowej karcie)
Course description cards, semester 2 (PDF, 293 KB, otworzy się w nowej karcie)
Course description cards, semester 3 (PDF, 225 KB, otworzy się w nowej karcie)
Internship for foreign students
International Relations Office of the Bialystok University of Technology
MECHANICS AND CONSTRUCTION OF MACHINERY
BIOMEDICAL ENGINEERING
MECHATRONICS
MECHANICS AND CONSTRUCTION OF MACHINERY
BIOMEDICAL ENGINEERING
MECHATRONICS