Information Technologies in Instrument Engineering

8.152.00.05 Information Technologies in Instrument Engineering
Qualification awarded: Master of metrology and information-measuring technology
Entry year: 2021
Mode of study: full
Program duration: 1.5 years
Institute: Institute of Computer Technologies, Automation and Metrology
Number of credits: 90 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 7 (Second cycle of QF-EHEA / EQF Level 7)
Field(s) of study: Automation and instrumentation
Specific arrangements for recognition of prior learning: Provided that the previous level was obtained in another country, nostrification is required, which is carried out by the Lviv Polytechnic.
Gained competence: - able to work independently on a mechatronic problem, using scientific methods; - able to describe basic elements and principles of user-defined blocks creation in a computing environment for mechatronic system simulation and understand the principles of modelling; - able to demonstrate suggestions about existing software for modelling of complex systems and able to make a task-optimised choice; - able to reproduce the design procedure for a magnetic circuit of an electromechanical unit; - able to describe the design procedure for a piezo actuator; - able to explain the main concepts of the theory of reliability; - able to select a data processing method for distinct signal characteristics detection; - able to describe the operating principle of measuring instruments for mechanical values.
- able to create a performance specification of a mechanic unit using request for proposal; - able to create a computer model of a mechatronic unit or system; - able to apply experimental planning methods for instrumentation technology; - able to realise computer simulation for precision mechanical units; - able to create a generalised model of precision mechanical devices; - able to choose a verification scheme for a precision mechanical device using a typical verification technique; - able to evaluate metrological characteristics of measuring instruments and precision mechanical systems using standardised verification procedure; - able to select and apply analog to digital or digital to analog converter.
- able to handle and critically evaluate a new knowledge; - able to build a model of an object, process or effect using physical principles, formal and conceptual approaches; - able to analyse the state of the art instrumentation technology, classify similar devices and systems according to design principle, application and operation conditions; - able to analyse reliability characteristics renewable and non-renewable elements of devices and systems; - able to design major and accessory elements of measuring instruments for mechanical values; - able to synthesize and to analyse functional block diagram and construction arrangement of designed instrumentation; - able to design mechanical elements of mechatronic systems; - able to design electronic elements of mechatronic systems.
Access to further studies: Obtaining third (educational and scientific / educational and creative) level