Automatic Control and Robotics (AIRN)

possess maturity certificate, positive result of the enrolment procedure

educational standards in accordance with the directive of the Minister of National Education and Sport dated 18 April 2002 concerning the description of educational standards for particular study courses and education levels (Dziennik Ustaw, No. 116, item 1004) including further amendments in accordance with the directive of the Minister of National Education and Sport dated 3 November 2003 (Dz.U.Nr 210 poz. 2040). The standards define general course requirements including the number of teaching hours, graduate's profile, curricula for individual courses including subjects of general, core and specialist education as well as requirements and recommendations concerning internship.

educational standards in accordance with the directive of the Minister of Science and Higher Education, dated July 12, 2007 concerning the description of educational standards for particular study courses and education levels as well as procedures for establishment and the condiontions to be met by the university to conduct both interdisciplinary and conbined studies courses (Dz. U. No 164, item. 1166 incl. later amendments). The standards define general course requirements including the number of teaching hours, graduate`s profile, curricula for individual courses including subjects of general, core and specialist education as well as requirements and recommendations concerning internship.

Resolution No. 22/53/2012 of the Senate of Bialystok University of Technology of 28 June 2012 on determining learning outcomes for first cycle courses in the field of Automatic Control and Robotics at Bialystok University of Technology

Symbol - Learning outcomes for the field of study of Automatic Control and Robotics - Reference to learning outcomes in the area of technical sciences

KNOWLEDGE
K_W01 - have the knowledge of mathematical analysis; in particular, graduates know the differential and integral calcu-lus, differential and difference equations, and integral transforms - T1A_W01
K_W02 - have the knowledge of mathematical logics and algebra; in particular, graduates know elements of logics, complex numbers, linear algebra, and elements of the graph theory - T1A_W01
K_W03 - have the knowledge of physics, including mechanics, thermodynamics, optics, electricity and magnetism, nuclear physics, and solid-state physics - T1A_W01
K_W04 - have the knowledge of the grammatical structures and vocabulary of the English, German, or Russian language enabling them to understand and produce written texts and oral presentations - T1A_W01
K_W05 - have a basic knowledge of programming languages and database structures - T1A_W01
K_W06 - have an elementary knowledge of system and computer network architectures and also the knowledge of operating systems, necessary to install, service and maintain computer programs for simulating and designing components and sub systems of technical systems - T1A_W02, T1A_W07
K_W07 - have a systematised knowledge of mechanics, including issues of statics, kinematics, and dynamics; graduates have the knowledge necessary to perform basic strength calculations; they also understand failure criteria - T1A_W02
K_W08 - have an elementary knowledge of thermodynamics and fluid mechanics necessary to describe heat and flow phenomena in processes and machines - T1A_W02
K_W09 - have a basic knowledge of the design of mechanical structures, including engineering graphics and engineering drawing; graduates also know the methods and tools of computer-aided design and computer-aided manufacturing - T1A_W02
K_W10 - have a basic knowledge of metrology; graduates know and understand measurement methods as well as the computational methods and tools necessary to analyse measurement results - T1A_W02
K_W11 - have an elementary knowledge of materials science and production engineering (in particular, of numerically controlled machines) - T1A_W02
K_W12 - have a basic knowledge of signal representation, processing, and transmission - T1A_W02
K_W13 - have a knowledge of static and dynamic properties of components and subsystems of control systems; graduates know methods of analysing linear systems and have a basic knowledge of modelling of linear and non-linear components and subsystems of control systems; they also know principles of creating, minimising, and implementing logical control systems - T1A_W04, T1A_W07
K_W14 - have the knowledge of robot structures, kinematics and dynamics; graduates know programming languages for robots and control systems - T1A_W03, T1A_W04, T1A_W07
K_W15 - have a basic knowledge of electric drives, microprocessors, and A/D and D/A converters - T1A_W02
K_W16 - know structures and operation principles of control system devices, instruments, and programmable logic controllers (PLCs); graduates also know programming tools for PLCs - T1A_W03
K_W17 - know state-space methods of analysing continuous control systems with different types of controllers (including proportional-integral-derivative (PID) controllers and predictive controllers) - T1A_W03
K_W18 - have a basic knowledge of industrial networks, real-time operating networks, and distributed control systems - T1A_W02, T1A_W04, T1A_W07
K_W19 - know the fundamentals of decision support systems, decision-making modelling, uncertainty representation, and multiple-criteria analysis - T1A_W03
K_W20 - know and understand methods of designing analogue and digital control systems and components - T1A_W03, T1A_W04, T1A_W07
K_W21 - have the knowledge of the present state and the newest development trends concerning automation and robotisation - T1A_W05
K_W22 - have an elementary knowledge of the life cycle of control and robotics systems and components - T1A_W06
K_W23 - know modern multimedia technologies (static and moving images, audio, and human- machine interaction) - T1A_W07
K_W24 - have a basic knowledge of non-technical aspects of engineering activities; graduates know the basic occupational health and safety principles applied in industry - T1A_W08
K_W25 - have an elementary knowledge of the protection of intellectual property and patent law - T1A_W10
K_W26 - have an elementary knowledge of management, including quality management, and of conducting business activity - T1A_W09
K_W27 - have an elementary knowledge of interpersonal and social communication and also know the elementary concepts concerning selected humanities subjects - T1A_W08
K_W28 - know general principles of creating and developing different forms of individual business activity - T1A_W11

SKILLS
K_U01 - can acquire information from literature, databases, and other sources; graduates can integrate and interpret the obtained information, draw conclusions, and formulate and justify their opinions - T1A_U01
K_U02 - can work individually and in groups; graduates can evaluate the amount of time required to complete a given task; they can develop and implement work schedules ensuring that deadlines are met - T1A_U02, T1A_U05
K_U03 - can prepare documentation of engineering task results; graduates can prepare overviews of these results - T1A_U03
K_U04 - can prepare and give short presentations on engineering task results, using modern multimedia techniques - T1A_U03, T1A_U04, T1A_U07
K_U05 - can make use of appropriately selected computer development environments and computer-aided design tools in order to model, design, and manufacture mechanical parts - T1A_U07, T1A_U08, T1A_U09
K_U06 - can plan design processes of simple mechatronic devices, and evaluate preliminary costs of such processes - T1A_U12, T1A_U16
K_U07 - can understand and formulate oral presentations on technical issues in English, German, or Russian; graduates can also write texts on any technical topic - T1A_U01, T1A_U06
K_U08 - can use computer networks, databases, and Artificial Intelligence methods - T1A U07
K_U09 - can make use of appropriately selected methods and devices for measuring basic physical parameters; graduates can present the obtained results in the numerical and graphical form, interpret the results, and draw correct conclusions - T1A_U08, T1A_U09
K_U10 - can determine stresses in machine parts, and analyse tension and strength in machine parts - T1A U08
K_U11 - can analyse simple heat and flow phenomena and formulate mass and energy balance for these phenomena - T1A U08, T1A_U10
K_U12 - can formulate mathematical models of control system components and subsystems as well as determine their static and dynamic properties (static and dynamic characteristics, and frequency responses) - T1A_U13
K_U13 - can design simple control systems, taking into consideration their operating and economic conditions, select control system devices, and tune PID controllers; graduates can also model linear and non-linear control system components and subsystems - T1A_U12, T1A_U16
K_U14 - can configure and design robots assembled from standard subassemblies, and also program simple robot control systems - T1A_U12
K_U15 - can analyse and synthesise simple digital and microprocessor control systems; graduates can read and develop microcontroller program codes - T1A_U09
K_U16 - can design continuous- and discrete-time control systems - T1A_U14
K_U17 - can program controllers for single and network-connected processes - T1A_U14, T1A_U15
K_U18 - can model simple decision support systems, and use computer decision support systems - T1A_U08
K_U19 - can use datasheets and application notes in order to choose proper components of the designed control systems - T1A_U01, T1A_U16
K_U20 - can design, implement and test simple control systems - T1A_U13, T1A_U16
K_U21 - can analyse, design, and test simple electrical or electronic systems - T1A_U08, T1a_U09
K_U22 - are aware of non-technical aspects (including also the environmental, economic, and legal aspects) of engineering tasks while designing control systems and components - T1A_U10
K_U23 - apply occupational health and safety principles - T1A_U11
K_U24 - can evaluate and select relevant tools and methods for solving simple control engineering tasks - T1A_U15
K_U25 - can observe and interpret the surrounding social phenomena and apply the theories they have studied in analysing selected social problems - T1A_U10

SOCIAL COMPETENCE
K_K01 - understand the need and know the possibilities of further education (second and third cycle courses, postgraduate courses, training courses), thus improving their professional, personal, and social competence - T1A_K01
K_K02 - realise and understand the importance of non-technical aspects and results of professional activities of control systems engineers, understand the influence of these activities on the environment, and know the responsibility for decisions pertaining to these activities - T1A_K02
K_K03 - realise the importance of behaving in a professional way and adhering to the principles of professional ethics - T1A_K05
K_K04 - are aware of responsibility for their own work; they are prepared to obey the rules of working in a team and to take responsibility for tasks implemented together with other people - T1A K03, T1A_K04
K_K05 - can think and act in a resourceful way - T1A_K06
K_K06 - are aware of the social role of graduates of technical universities, understand the need to inform the society (using the mass media or other sources) about developments in automatic control systems and robotics, and about other aspects of professional activities of control systems engineers; graduates endeavour to provide such information and opinions in a commonly understandable way - T1A_K07

Resolution No. 261/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 Automatic Control and Robotics

Meaning of symbols:
AR1 – learning outcomes for the field of Automatic Control and Robotics
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 Automatic Control and Robotics. After having completed a first cycle course in the field of Automatic Control and Robotics 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
AR1_W01 - basic processes occurring in the life cycle of devices, objects and systems of automatic control and robotics and robotics - P6S_WG,P6U_W - P6S_WG
AR1_W02 - at an advanced level - selected issues in mathematics, physics, mechanics, as well as mathematical and physical models and relations between them which are necessary to describe physical phenomena and processes occurring in the field of automatic control and robotics - P6S_WG, P6U_W - P6S_WG
AR1_W03 - measurement methods and systems, information and communication technology tools used in automatic control and robotics systems - P6S_WG, P6U_W - P6S_WG
AR1_W04 - ways of selecting and applying appropriate engineering methods and tools, sources of information and their use for formulating and solving basic problems of automatic control and robotics, as well as drawing conclusions - P6S_WG, P6U_W - P6S_WG
AR1_W05 - theoretical aspects of electric circuits, operation of electric and electronic devices, signal theory and selected phenomena accompanying the operation of automatic control and robotics systems - P6S_WG, P6U_W - P6S_WG
AR1_W06 - basics of technical drawing, mechanical equipment design, including selection of construction materials for components, principles of designing automatic control and robotics systems and supporting engineering tools and computer methods - P6S_WG, P6U_W - P6S_WG
AR1_W07 - practical examples of implementation of methods used to solve typical engineering problems in the field of automatic control and robotics - P6S_WG, P6U_W - P6S_WG
AR1_W08 - basic economic and legal rules of creating and developing forms of individual entrepreneurship as well as rules of interpersonal and social communication and essential dilemmas of contemporary civilization - P6S_WK, P6U_W - P6S_WK
AR1_W09 - the principles of industrial property protection and copyrights, as well as basic safety and hygiene regulations in the place of work and study - P6S_WK, P6U_W - P6S_WK
AR1_W10 - methods of planning independent and team work, the need to improve one's qualifications and methods of inference and presenting one's opinions - P6S_WK, P6U_W - P6S_WK

SKILLS: THE GRADUATE IS ABLE TO
AR1_U01 - use knowledge from different fields of science to analyse, formulate and solve complex or unusual problems of automatic control and robotics - P6S_UW, P6U_U - P6S_UW
AR1_U02 - appropriately select sources and information therein, evaluate, critically analyse and synthesise information and use it to solve technical problems - P6S_UW, P6U_U - P6S_UW
AR1_U03 - select and apply adequate methods and tools, including advanced information and communication techniques in automatic control and robotics systems - P6S_UW, P6U_U - P6S_UW
AR1_U04 - plan and perform experiments, including measurements and computer simulations, interpret the results and draw conclusions, formulate opinions - P6S_UW, P6U_U - P6S_UW
AR1_U05 - make a preliminary economic assessment of the proposed solutions, engineering actions taken, notice their system and non-technical aspects and evaluate and critically analyse the functioning of existing technical solutions in devices, objects and systems of automatic control and robotics - P6S_UW,
P6U_U - P6S_UW
AR1_U06 – design, according to given specification, and produce a simple device, object or system of automatic control and robotics - P6S_UW, P6U_U - P6S_UW
AR1_U07 - design a control system for a selected industrial process - P6S_UW, P6U_U - P6S_UW
AR1_U08 - observe and interpret surrounding phenomena, communicate, exchange opinions, participate in a specialist debate on automatic control and robotics - P6S_UK, P6U_U
AR1_U09 - use a foreign language at the B2+ level according to the Common European Framework of Reference for Languages, in communication in the international engineering environment, reading with understanding of scientific publications, index cards, application notes, operating instructions and other documentation related to devices and systems of automatic control and robotics - P6S_UK, P6U_U
AR1_U10 - plan, organize individual and team work, plan own professional development in order to keep up with the trends in the field of automatic control and robotics - P6S_UO, P6S_UU, P6U_U
IBK_U11 - apply the rules of occupational safety and health - P6S_UW, P6S_UO, P6U_U – P6S_UW

SOCIAL COMPETENCE: THE GRADUATE IS READY TO
AR1_K01 - critically evaluate own knowledge, improve professional qualifications, self-educate - P6S_KK, P6S_KR,P6U_K
AR1_K02 - recognize the importance of knowledge in solving engineering problems, assume responsibility for the tasks performed, follow the rules of teamwork - P6S_KK, P6S_KO, P6U_K
AR1_K03 - fulfil social obligations, respect diversity of views and cultures, co-organise activities for the benefit of the environment - P6S_KO, P6U_K
AR1_K04 - think and act in an entrepreneurial manner while fulfiling professional duties - P6S_KO, P6U_K
AR1_K05 - behave in a professional manner, follow professional ethics, respect achievements and traditions of the engineering profession - P6S_KR, P6U_K

Resolution No. 479/XXVII/XV/2019 of the Senate of Bialystok University of Technology of 26 September 2019 on determining study programmes in the fields of study starting from the academic year 2019/2020 conducted at Bialystok University of Technology

Symbol - Learning outcomes for the field of study Automatic Control and Robotics, general academic profile, first cycle studies. After completing the first-cycle studies in the field of automatic control and robotics, the graduate - Reference to the universal first-stage descriptors set out in the Act of 22 December 2015 on the Integrated Qualifications System and the second-stage descriptors set out 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 Integrated Qualifications System of the PQF - level 6

KNOWLEDGE: the graduate knows and understands
AR1_W01 - selected processes occurring in the life cycle of devices, objects and systems of automatic control and robotics - P6S_WG, P6U_W - P6S_WG;
AR1_W02 - advanced issues in mathematics and physics, as well as mathematical and physical models and relationships between them necessary to describe physical phenomena and processes occurring in devices, objects and systems of automatic control and robotics - P6S_WG, P6U_W - P6S_WG;
AR1_W03 - selected principles, methods and tools for the analysis and selection of mechanical components and systems used in devices, objects and systems of automatic control and robotics - P6S_WG, P6U_W - P6S_WG;
AR1_W04 - information and communication techniques used in automatic control and robotics systems - P6S_WG, P6U_W - P6S_WG;
AR1_W05 - methods of selecting and using information sources as well as appropriate engineering methods and tools, including measuring methods and systems for formulating and solving basic problems of automatic control and robotics, and drawing conclusions - P6S_WG, P6U_W - P6S_WG;
AR1_W06 - issues in the theory of electrical circuits, operation of electrical and electronic devices, signal theory and selected phenomena accompanying the functioning of automatic control and robotics systems - P6S_WG, P6U_W, P6S_WG;
AR1_W07 - principles of technical drawing and principles of designing selected devices, objects and systems of automatic control and robotics as well as supporting engineering tools and computer methods - P6S_WG, P6U_W - P6S_WG;
AR1_W08 - practical examples of implementation of methods used to solve typical engineering problems in the field of automatic control and robotics - P6S_WG, P6U_W - P6S_WG;
AR1_W09 - basic economic and legal principles of creating and developing forms of individual entrepreneurship, as well as the principles of interpersonal and social communication and basic dilemmas of modern civilization - P6S_WK, P6U_W - P6S_WK;
AR1_W10 - principles of industrial property and copyright protection as well as basic principles of occupational health and safety at work and study positions - P6S_WK, P6U_W - P6S_WK;
AR1_W11 - methods of planning individual and team work, the need to improve qualifications and methods of inference and presenting opinions - P6S_WG, P6S_WK, P6U_W.

SKILLS: the graduate can
AR1_U01 - use knowledge from various fields of science to analyse, formulate and solve complex or unusual automatic control and robotics problems - P6S_UW, P6U_U - P6S_UW;
AR1_U02 - choose sources and information contained therein correctly, assess them, critically analyse and synthesise them and use them to solve technical problems - P6S_UW, P6U_U - P6S_UW;
AR1_U03 - select and use appropriate methods and tools, including advanced information and communication techniques in automatic control and robotics systems - P6S_UW, P6U_U - P6S_UW;
AR1_U04 - plan and conduct experiments, including computer measurements and simulations, interpret obtained results and draw conclusions, formulate opinions - P6S_UW, P6U_U - P6S_UW;
AR1_U05 - make an initial economic assessment of the proposed solutions, therefore engineering actions, recognise their systemic and non-technical aspects, as well as evaluate and make a critical analysis of the functioning of existing technical solutions in devices, objects and systems of automatic control and robotics - P6S_UW, P6U_U - P6S_UW;
AR1_U06 - design according to the given specification and implement a simple device, object or system of automatic control and robotics - P6S_UW, P6U_U - P6S_UW;
AR1_U07 - design a control system for a selected industrial process - P6S_UW, P6U_U - P6S_UW;
AR1_U08 - perform analysis and selection of mechanical components and systems in devices, objects and systems of automatic control and robotics - P6S_UW, P6U_U;
AR1_U09 - communicate, exchange opinions, including taking part in a specialised debate in the field of automatic control and robotics - P6S_UK, P6U_U;
AR1_U10 - use a foreign language at least at B2 level of the Common European Framework of Reference for Languages, including communication in an international engineering environment - P6S_UK, P6U_U;
AR1_U11 - plan, organise individual work, in a team and plan professional development to constantly keep up with trends in the field of automatic control and robotics - P6S_UO, P6S_UU, P6U_U;
AR1_U12 - apply the principles of health and safety at work - P6S_UW, P6U_U - P6S_UW.

SOCIAL COMPETENCES: the graduate is ready to
AR1_K01 - critically assess his/her knowledge, improve professional qualifications, self-educate - P6S_KK, P6S_KR, P6U_K;
AR1_K02 - recognise the importance of knowledge and use of expert opinions in solving engineering problems, accepting responsibility for tasks carried out - P6S_KK, P6S_KO, P6U_K;
AR1_K03 - fulfil social obligations, respect the diversity of views and cultures, co-organise environmental activities - P6S_KO, P6U_K;
AR1_K04 - think and act in an entrepreneurial manner in fulfilling professional duties - P6S_KO, P6U_K;
AR1_K05 - behave in a professional manner, adhere to the principles of professional ethics, care for the achievements and traditions of the engineering profession - P6S_KR, P6U_K.

Meaning of symbols:
AR1 - learning outcomes in the first-cycle studies in the field of automatic control and robotics
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 competences
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 - communicate/ receive and create statements, disseminate knowledge in the scientific community and use a foreign language; P6S_UO - organise work/ plan and teamwork; P6S_UU - learn/ plan 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.