English-language studies

Graduates of the MECHATRONICS field of study, MECHATRONIC DEVICES AND SYSTEMS specialization (II degree) have extensive knowledge in the field of mechanics, construction and operation of machines, electronics, computer science, automation and robotics and control. They have the ability to integrate this knowledge in the design, manufacture and operation of products as well as the analysis of products in their environment. Graduates are prepared to participate in interdisciplinary teams solving problems related to: construction; manufacturing; sale; exploita-tion; servicing and diagnosing mechatronic systems as well as machines and devices in which they occur. Graduates of the studies know a foreign language at the C1 level of the European System for the Description of Language Education of the Council of Europe and have the skills to use a specialist language in the field of education. Graduates are prepared to work in: industry producing mechatronic systems - electromechanical, motorization, household appliances, avia-tion, machine tools; industry and other institutions that operate and service mechatronic systems as well as machines and devices in which they are used. Graduates are prepared to work or un-dertake third-cycle studies. They receive theoretical and practical preparation to apply new achievements of science and technology, to create and use modern precision and electronic de-vices, as well as to formulate goals and needs for implementation research.

The aim of this specialization is to prepare students to design mechatronic devices and to solve complex, interdisciplinary design and construction problems. They have the necessary practical knowledge of the methods and tools of computer design, microprocessor control, drives and actu-ators, and the automation of processes related to industrial manufacturing techniques and device sensors, including optical devices and opto-mechatronic systems. Graduates are prepared to de-sign and develop new types of mechatronic devices. They know the rules of conducting acceptance tests of devices, they can design them and verify the correctness of the results. They are prepared to work in a team, they can work as its members and will manage to manage it.

Mechatronics

B.Sc. Mechatronics Faculty of MechatronicsDuration: 3,5 years

Starts in October

(specialisation: Photonics Engineering)

The profile of the first cycle full time studies within Photonics Engineering was developed to provide educational offer in the area of optomechatronics, especially in: building of optical and optoelectronic equipment and its applications in optonumerical methods of inspection, e.g holographic cameras, spectrometers, multimedia devices and multi-functional interferometers for different scale objects testing (from microelements of MEMS/MOEMS type up to large engineering structures). Students are equipped with knowledge on fundamentals of engineering and basis for designing, manufacturing, testing and operating optomechatronic systems and devices. The graduates are prepared for work In the Industry and SMEs and ready to tackle engineering problems. They can also support services based on optomechatronics equipment used in the fields such as multimedia, medicine, lighting, metrology and others.

Examples of modules:

• Material Engineering and Computer Techniques
• Engineering Graphics
• Fundamentals of Electronics and Electrotechniques
• Strength of Material
• Design of fine Mechanism (CAD) and Optomechatronics
• Basics of Photonics
• Instrumental Optics
• Optoelectronics Technology and Image Processing
• Laser Techniques
• Machine Vision
• Fiber Optics Technology (Telecommunications and Sensors)
• Photonics Devices and Systems
• Lighting Technology

(specialisation: Mechatronic Devices and System)

The aim of Mechatronic Devices and Systems specialisation is to prepare students to design mechatronic devices and to solve complex, interdisciplinary design and construction problems. They acquire the necessary practical knowledge about the methods and tools of computer design, microprocessor control, drives and actuators as well as automation of processes related to industrial manufacturing techniques and device sensors, including optical devices and optomechatronic systems. Graduates know the methods of data acquisition and processing in digital control and diagnostic systems. Graduates are prepared to design and operate mechatronic devices, including drive systems for precise positioning, devices for measuring various physical and geometric quantities of utility machines, as well as mechanization, automatization and robotization of technological processes. They can work in the mechatronic systems manufacturing industry - electromechanical, automotive, household appliances, aviation, machine tools: industry and other facilities that operate and service mechatronic systems as well as machines and devices in which they are used. Graduates are prepared to undertake second-cycle studies.

Examples of modules:

• Matlab programming
• 3D CAD applications
• Mechatronic Drives
• Theory of Machines and Mechanism
• Microcontrollers
• Sensors and Measuring devices
• Design of electronic modules
• Multimedia devices
• Design of Electronic Modules
• MEMS
• Electric Metrology

M.Sc. Mechatronics
Faculty of Mechatronics
Duration: 1,5 years
Starts in: October & February

(specialisation: Mechatronic Devices and Systems)

The aim of the second cycle of full-time studies in the field of Mechatronic Devices and Systems is to prepare students to design mechatronic devices and to solve complex, interdisciplinary design and construction problems. Students acquire the necessary practical knowledge of the methods and tools of computer design, microprocessor control, drives and actuators, and the automation of processes related to industrial manufacturing techniques and device sensors, including optical devices and opto-mechatronic systems. Graduates are prepared to work or undertake third-cycle studies. They receive theoretical and practical preparation to apply new achievements of science and technology, to create and use modern precision and electronic devices, as well as to formulate goals and needs for implementation research.

Examples of modules

• Introduction to Phyton/ Machine Learning
• Advanced micrecorsrollers
• Mechatronic Devices Automated Control
• Mechatronic Systems
• Vending Machines
• Diagnostics of industrial objects