Mechatronics (MNIKA)

possess maturity certificate, positive result of the enrolment procedure

Resolution No. 305/XXI/XIV/2014 of 24 April 2014 passed by the Senate of the University of Bialystok; Resolution No. 532/XXXII/XIV/2015of 24 September 2015 passed by the Senate of the University of Bialystok on determining the effects of education adopted for conducting an education program at the University of Technology in Bialystok for first degree in mechatronics

Symbol - Learning outcomes for Mechatronics - Learning outcome reference

KNOWLEDGE
The Engineer who has graduated in Mechatronics

SM_ W01 - has well-structured knowledge of mathematics related to matrix calculus, complex numbers, elements of analytical geometry, differential and integral calculus of a function of one and more variables, probability and elements of applied statistics - T1A_W01, T1A_W07
SM_W02 - has well-structured knowledge of physics and chemistry which may be helpful in understanding of phenomena and processes occurring at different stages of production and operation of mechatronic devices and possesses knowledge required to understand the structure and properties of matter - T1A_W01, T1A_W07
SM_W03 - has knowledge of mechanics related to statics, kinematics and dynamics of mechanisms in machines and robots as well as knowledge of fundamentals of material strength; understands the theoretical rudiments of structure of machines and devices - T1A_W02
SM_W04 - has elementary knowledge of the structure, operation as well as mechanical devices and mechatronic systems construction rules - T1A_W03, T1A_W04
SM_W05 - has basic knowledge of recent advances in mechatronic systems - T1A_W05
SM_W06 - has elementary knowledge related to protection of intellectual property, including patent and copyright law and using patent information - T1A_W10
SM_W07 - has organized knowledge, with firm theoretical foundations, about fluid flow phenomena - T1A_W02, T1A_W04
SM_W08 - has basic knowledge of graphical representation of the structure of components and sets of machines, of their dimensioning for structural and technological purposes and drawing up technical documentation for machines and devices - T1A_W03, T1A_W04, T1A_W07
SM_W09 - has elementary knowledge of computer operating systems, databases and methods of implementing computing tools in engineering, methods and techniques of programming, knows planning principles - T1A_W02, T1A_W03
SM_W10 - Has basic knowledge necessary in understanding out of technical engineering activities; knows and understands basic safety and hygiene rules and regulations which ought to be followed in industry - T1A_W08
SM_W11 - has basic knowledge of automatic control and automation, robotics and mechatronics, which may be helpful in understanding of modern technological objects - T1A_W02, T1A_W04
SM_W12 - has basic knowledge related to the theory of electrical circuits and electronic elements, knows the structure of the most common electrical devices and understands how they work - T1A_W02, T1A_W04
SM_W13 - has essential knowledge related to the properties and selection of engineering materials as well as familiarity with basic research methods and ways of modifying properties of such materials - T1A_W02, T1A_W04
SM_W14 - knows measuring techniques, understands measurement methods, knows calculation methods and computing tools which are necessary for the analysis of measurement results and planning experiments - T1A_W03, T1A_W04, T1A_W07
SM_W15 - has basic knowledge about signal and image representation, their descriptions, processing and
Transmitting - T1A_W02
SM_W16 - has knowledge of describing static and dynamic qualities of elements and systems of automatic control; knows methods of investigating linear systems and has basic knowledge about modelling of linear and non-linear elements and systems of automatic control - T1A_W02, T1A_W04,
T1A_W07
SM_W17 – has knowledge about the structure, kinematics and dynamics of robots; knows robot and automatic control programming languages - T1A_W03, T1A_W04, T1A_W05

SM_W18 - has elementary knowledge of CAD and CAM - T1A_W03, T1A_W04, T1A_W07
SM_W19 - has organized knowledge about the tool production technologies and the latest technologies applied to shape the form, structure and properties of products - T1A_W02, T1A_W03
SM_W 20 - has elementary knowledge related to management, also quality management and running a business, and knows general principles of the foundation and development of various forms of individual entrepreneurship - T1A_W09, T1A_W11
SM_W 21 - has elementary knowledge of interpersonal and social communication and knows basic concepts related to selected humanities - T1A_W08
SM_W 22 - has knowledge of the maintenance and diagnostics of technical systems related to ageing processes and lifecycle of machines, their use, operating, diagnosing, monitoring and/or scheduling diagnostic tests - T1A_W04, T1A_W06
SM_W 23 - has elementary knowledge related to electric drive mechanisms, digital and microprocessor technology, knows the principles of operation of A/D and D/A converters - T1A_W02

SKILLS
The Engineer who has graduated in Mechatronics

SM_U01 - can acquire information from literature, databases and other sources; can integrate and interpret the obtained information and draw conclusions as well as formulate and justify opinions; has ability for self-education - T1A_U01, T1A_U05
SM_U02 - can work individually and in a team using appropriate techniques; can schedule his or her work and meet deadlines when doing an assignment - T1A_U02
SM_U03 - can prepare and present technical documentation of machines and mechatronic systems, prepare presentation of the results, can communicate with experts in different technological fields - T1A_U02, T1A_U03, T1A_U07
SM_U04 - has sufficient competence in a foreign language to communicate, read and edit technical documents - T1A_U01, T1A_U06
SM_U05 - can use documents and technical standards in order to choose appropriate materials and components for the designed mechatronic system - T1A_U01, T1A_U16
SM_U06 - can use CAD and CAM methods and tools, can make selection of materials - T1A_U07,
T1A_U09
SM_U07 - can select appropriate methods and measurement devices, take measurements, archive, discuss and correctly interpret the results - T1A_U08
SM_U08 - can prepare assumptions for automation of a simple technological process, can schedule the process of developing a simple mechatronic device and estimate its cost - T1A_U12, T1A_U13, T1A_U14, T1A_U16
SM_U09 - can use computer networks, databases and AI (artificial intelligence) methods - T1A_U07
SM_U10 - can create an algorithm and write a computer program, program controllers in unit processes or controllers operating in industrial networks - T1A_U14, T1A_U16
SM_U11 - can perform an analysis of simple heat transfer phenomena and prepare mass and energy balance - T1A_U09
SM_U12 - can design continuous and discrete control systems taking functional and economic conditions into account - T1A_U14, T1A_U16, T1A_U12
SM_U13 - can conduct analysis and synthesis of simple digital and microprocessor systems, create a controlling algorithm - T1A_U09
SM_U14 - can design, configure, program and test mechatronic systems composed of standard components - T1A_U13, T1A_U16
SM_U15 - can analyse signals and images using analogue and digital technologies and appropriate hardware and software tools - T1A_U09
SM_U16 - can shape properties of materials and design basic processes to process these materials - T1A_U14, T1A_U16
SM_U17 - can compare construction solutions of mechatronic devices and systems taking into account the set functional and economic criteria - T1A_U12
SM_U18 - can design a technological process and choose or design tools and devices to realize it, and also create controlling algorithm for a CNC machine or a robot to manufacture simple machine parts - T1A_U13, T1A_U14
SM_U19 - can design machine parts, mechanical units and complete mechanical devices - T1A_U15,
T1A_U16
SM_U20 - can present elements and machine units in a graphic form, take their measurements and prepare technical documentation - T1A_U03, T1A_U07
SM_U21 - can conduct kinematic and dynamic analysis of simple mechanisms and also can conduct evaluation of energy conversion efficiency of machines and devices - T1A_U09, T1A_U14
SM_U22 - can analyse, design and investigate simple electrical and electronic circuits - T1A_U08, T1A_U09, T1A_U16
SM_U23 - can perceive – while formulating and solving problems which involve designing mechatronic systems and machines – their non-technical aspects, including environmental, economic and legal ones; applies the principles of ergonomics, occupational safety and health - T1A_U10, T1A_U11

SOCIAL COMPETENCE
The Engineer who has graduated in Mechatronics

SM_K01 - understands the need and is aware of the opportunities for continuous self-education (postgraduate and PhD studies, courses), improving professional, personal and social competence - T1A_K01
SM_K02 - is aware of the importance and understands non-technical aspects and outcomes of a mechatronics engineer‘s actions, including their effect on the environment and the ensuing responsibility for the decisions taken - T1A_K02
SM_K03 - is aware of the importance of professional behaviour and the need to follow professional ethics, responsibility for one’s own work, is ready to comply with rules of teamwork and to take responsibility for any team assignment - T1A_K03, T1A_K04, T1A_K05
SM_K04 - can think and act in a resourceful way - T1A_K06

Resolution No. 263/XV/XV/2018 of the Senate of Bialystok University of Technology of 24 May 2018 on determining the learning outcomes for the first-cycle studies on the academic profile taught at Bialystok University of Technology in the field of Mechatronics

Meaning of symbols:
MK1– learning outcomes in the field of Mechatronics
W – category of knowledge
U – category of skills
K – category of social competence
01, 02 and following - number of the learning outcome

Symbol - Learning outcomes for the studies in the field of Mechatronics. After having completed a first cycle course in the field of Mechatronics the graduate - Reference to the qualifications obtained within the second stage descriptors typical for higher education and science of the Polish Qualifications Framework, level 6 - Reference to the engineering competence

KNOWLEDGE: THE GRADUATE KNOWS AND UNDERSTANDS
MK1_W01 - at an advanced level - selected topics in mathematics, physics, electrical engineering and mechanics necessary to describe physical phenomena and processes occurring in mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W02 - principles and methods of construction of mechatronic devices, including selection of structural materials, design of assemblies and elements of mechatronic systems using computer aided design and manufacturing - P6U_W, P6S_WG - P6S_WG
MK1_W03 - principles and methods of design and testing of mechatronic control systems, including selection of electronic components, controllers, power and drive systems, design of simple and complex control systems using computer design and manufacturing techniques - P6U_W, P6S_WG - P6S_WG
MK1_W04 - methods for measuring basic mechanical and electrical quantities and calculation methods and IT tools necessary for the development and processing of measurement results - P6U_W, P6S_WG - P6S_WG
MK1_W05 - methods and techniques of programming, to the extent necessary for the application of modern techniques for the design, manufacture and control of mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W06 - methods and tools for design, configuration, testing and communication of intelligent mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W07 - detailed design, manufacturing and testing of simple and complex mechatronic devices and systems - P6U_W, P6S_WG - P6S_WG
MK1_W08 - detailed issues of processes occurring in the life cycle of mechatronic devices and systems - P6U_W, P6S_WG - P6S_WG
MK1_W09 - detailed issues of human–machine interaction in mechatronic systems - P6U_W, P6S_WK - P6S_WK
MK1_W10 - methods of planning work independently and in a team and rules of health, safety and hygiene at work - P6U_W, P6S_WK - P6S_WK
MK1_W11 - social, economic and legal principles of creation and development of forms of individual entrepreneurship, including principles of protection of industrial property and copyright, principles of interpersonal and social communication and fundamental dilemmas of modern civilization - P6U_W, P6S_WK - P6S_WK

SKILLS: THE GRADUATE IS ABLE TO
MK1_U01 - obtain information from literature, databases and other sources; can integrate the information obtained, make its interpretation, as well as draw conclusions, formulate and justify opinions - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U02 - work individually and in a team and develop and implement a work schedule - P6U_U, P6S_UW, P6S_UO - P6S_UW
MK1_U03 - correctly develop documentation on the implementation of the engineering task, discuss the features of a solution using specialized terminology - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U04 - use a foreign language at the B2+ level according to the Common European Framework of Reference for Languages, allowing to communicate, read with understanding: publications, index cards, application notes, instructions for the operation of mechanical devices and information tools and other documents - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U05 - use mathematical methods and models learnt, as well as use computer simulations, experimental methods for the analysis and evaluation of mechatronic syndromes, including atypical problems - P6U_U, P6S_UW - P6S_UW
MK1_U06 - make a critical analysis of existing solutions, evaluate them and propose a suitable solution for the specific task - P6U_U, P6S_UW - P6S_UW
MK1_U07 - design machine parts, electronic and control systems and whole mechatronic devices for various applications using appropriate methods, techniques and tools, and also perceive their non-technical aspects, including environmental, economic and legal ones - P6U_U, P6S_UW - P6S_UW
MK1_U08 - use catalogues and national and international standards to select appropriate components for the designed mechatronic system - P6U_U, P6S_UW, P6S_UK - P6S_UW
MBK_U09 - apply the rules of occupational safety and health - P6U_U, P6S_UW, P6S_UO - P6S_UW
MK1_U10 - evaluate the usefulness of routine methods (analytical, simulation and experimental) and tools for solving simple engineering tasks typical for mechanics and machine building, computer science, electronics, automation and robotics, and select and apply appropriate methods and tools - P6U_U, P6S_UW - P6S_UW
MK1_U11 - observe, interpret and discuss the surrounding social phenomena and use the theories learnt to analyse selected problems, successively planning to expand one's own knowledge - P6U_U, P6S_UW, P6S_UK, P6S_UU - P6S_UW

SOCIAL COMPETENCE: THE GRADUATE IS READY TO
MK1_K01 - critical assessment of one's own knowledge and recognition of the importance of knowledge in solving interpersonal and social problems in mechatronics - P6U_K, P6S_KK
MK1_K02 - professional behaviour, observance of the principles of professional ethics and respect for the diversity of views and cultures, care for the achievements and traditions of the profession of a mechanical engineer - P6U_K, P6S_KR
MK1_K03 - taking responsibility for one's own work and submitting to the rules of working in a team and taking responsibility for joint tasks - P6U_K, P6S_KR
MK1_K04 - fulfilling social obligations, co-organizing activities for the social environment, including initiating actions for the public interest - P6U_K, P6S_KO
MK1_K05 - think and act in an entrepreneurial manner while fulfiling professional duties - P6U_K, P6S_KO

Resolution No. 466/XXVI/XV/2019 of the Senate of Bialystok University of Technology of 27 June 2019 on determining the study programmes in the fields of study starting from the academic year 2019/2020 conducted at Bialystok University of Technology

Learning outcomes for the field of first Mechatronics, general academic profile

Symbol - Learning outcomes for the mechatronics field of study. After completing first-cycle studies in the field of mechatronics, a graduate - Reference to the universal first-stage descriptors specified in the Act of 22 December 2015 on the Integrated Qualifications System and the second-stage descriptors specified in the regulations issued pursuant to Art. 7 (3) of the PQF Act - level 6 - Reference to engineering competences included in the second stage descriptors specified in the regulations issued pursuant to Art. 7 (3) of the Act of 22 December 2015 on the PQF Integrated Qualifications System – level 6

KNOWLEDGE: the graduate knows and understands
MK1_W01 - selected topics in the field of mathematics, physics, electrical engineering and mechanics, necessary to describe physical phenomena and processes occurring in mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W02 - principles and methods of constructing mechatronic devices, including the selection of construction materials, designing assemblies and elements of mechatronic systems using computer-aided design and manufacturing - P6U_W, P6S_WG - P6S_WG
MK1_W03 - principles and methods of constructing and testing control systems for mechatronic devices, including selection of electronic components, controllers, power supply and drive systems, design of simple and complex control systems using computer design and manufacturing techniques - P6U_W, P6S_WG - P6S_WG
MK1_W04 - methods of measurement of basic mechanical and electrical quantities as well as computational methods and IT tools necessary to develop and process measurement results - P6U_W, P6S_WG - P6S_WG
MK1_W05 - methods and techniques of programming, to the extent necessary to apply modern techniques of designing, manufacturing and controlling mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W06 - methods and tools in the field of design, configuration, testing and communication of intelligent mechatronic systems - P6U_W, P6S_WG - P6S_WG
MK1_W07 - detailed issues in the field of design, manufacture and testing of simple and complex mechatronic devices and systems - P6U_W, P6S_WG - P6S_WG
MK1_W08 - detailed issues in the field of processes occurring in the life cycle of mechatronic devices and systems - P6U_W, P6S_WG - P6S_WG
MK1_W09 - detailed issues in the field of human-machine interaction in mechatronic systems - P6U_W, P6S_WK - P6S_WK
MK1_W10 - methods of planning individual and team work and the principles of health and safety at work - P6U_W, P6S_WK - P6S_WK
MK1_W11 - social, economic and legal principles of creating and developing forms of individual entrepreneurship, including the principles of industrial property protection and copyright, principles of interpersonal and social communication and fundamental dilemmas of modern civilization - P6U_W, P6S_WK - P6S_WK

SKILLS: the graduate can
MK1_U01 - obtain information from literature, databases and other sources; is able to integrate the obtained information, interpret it, draw conclusions and formulate and justify opinions - P6U_U, P6S_UW P6S_UK - P6S_UW
MK1_U02 - work individually and in a team and develop and implement a work schedule - P6U_U, P6S_UW, P6S_UO - P6S_UW
MK1_U03 - correctly develop documentation for the implementation of an engineering task, discuss the features of the solution using specialised terminology - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U04 - use a foreign language at the B2 level of the Common European Framework of Reference for Languages, which allows to communicate and understand catalogue cards, application notes, manuals for mechanical devices and IT tools and other documents - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U05 - use the known methods and mathematical models, as well as apply computer simulations, experimental methods to analyse and evaluate the operation of mechanical assemblies, including non-standard problems - P6U_U, P6S_UW - P6S_UW
MK1_U06 - make a critical analysis of existing solutions, evaluate them and propose an appropriate solution for the implementation of a specific task - P6U_U, P6S_UW - P6S_UW
MK1_U07 - design machine parts, assemblies and entire medical devices for various applications using appropriate methods, techniques and tools, as well as perceive their non-technical aspects, including environmental, economic and legal ones- P6U_U, P6S_UW - P6S_UW
MK1_U08 - use catalogues and national and international standards to select appropriate components for the designed mechanical system - P6U_U, P6S_UW, P6S_UK - P6S_UW
MK1_U09 - apply the rules of occupational health and safety - P6U_U, P6S_UW, P6S_UO - P6S_UW
MK1_U10 - assess the usefulness of routine methods (analytical, simulation and experimental) and tools for solving simple engineering tasks, typical for mechanics and mechanical engineering, computer science, electronics, automatic control and robotics and select and use the appropriate methods and tools - P6U_U, P6S_UW - P6S_UW
MK1_U11 - observe, interpret and discuss the surrounding social phenomena and use the learned theories to analyse selected problems, successively planning to expand ones knowledge - P6U_U, P6S_UW, P6S_UK, P6S_UU - P6S_UW

SOCIAL COMPETENCES: the graduate is ready to
MK1_K01 - critically assess own knowledge and recognise the importance of knowledge in solving interpersonal and social problems in the field of mechatronics - P6U_K, P6S_KK
MK1_K02 - behave in a professional manner, comply with the principles of professional ethics and respect the diversity of views and cultures, care for the achievements and traditions of the profession of mechanical engineer - P6U_K, P6S_KR
MK1_K03 - accept responsibility for own work and subordinate to the rules of teamwork, as well as take responsibility for jointly implemented tasks - P6U_K, P6S_KR
MK1_K04 - fulfil social obligations, co-organise activities for the benefit of the social environment, including initiating activities in the public interest - P6U_K, P6S_KO
MK1_K05 - think and act in the entrepreneurial manner in fulfilling professional duties - P6U_K, P6S_KO

Meaning of symbols:
MK1 - learning outcomes in the field of mechatronics
W – category of knowledge
U - category of skills
K – category of social competences
01, 02,03…-learning outcome number
Explanation of symbols according to the Polish Qualifications Framework (Act of 22 December 2015) on the Integrated Qualifications System:
P = PQF level
U = universal descriptor
K = social competence
P6U_W - PQF level 6, universal descriptor, knowledge
P6U_U – PQF level 6, universal descriptor, skills
P6U_K - PQF level 6, universal descriptor, social competences
P6S - learning outcomes for first-cycle studies according to the Polish Qualifications Framework (qualifications obtained under the system of higher education and science, second-stage descriptors) - LEVEL 6, general academic profile;
W - knowledge (the graduate knows and understands): P6S_WG - scope and depth/ completeness of the cognitive perspective and relationships, P6S_WK - context/ conditions, effects;
U - skills (the graduate is able to): P6S_UW - use of knowledge/ solved problems and performed tasks; P6S_UK - communicating/ receiving and creating statements, disseminating knowledge in the scientific community and using a foreign language; P6S_UO - work organisation/ planning and teamwork; P6S_UU - learning/ planning one's own development and the development of others;
K - social competences (the graduate is ready for): P6S_KK - assessment/ critical approach, P6S_KO - responsibility/ fulfilling social obligations and acting for the public interest, P6S_KR - professional role/ independence and ethos development.