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Study programmes > All studies > Electronics and telecommunications > (in Polish) Elektronika i Telekomunikacja, stacjonarne, pierwszego stopnia

(in Polish) Elektronika i Telekomunikacja, stacjonarne, pierwszego stopnia (TSI)

(in Polish: Elektronika i Telekomunikacja, stacjonarne, pierwszego stopnia)
first degree studies
full time, 3,5 year
Language: Polish
No description for the programme.

Qualification awarded:

(in Polish) inżynier

Access to further studies:

possibility of appllying for second degree studies, postgraduate studies

Professional status:

right to apply for qualifications related with the field of studies completed

Access requirements

possess maturity certificate, positive result of the enrolment procedure

Teaching standards

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.

Learning outcomes

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Resolution No. 23/51/2012 of the Senate of Bialystok University of Technology of 24 May 2012 on determining learning outcomes for first cycle courses in the field of Electronics and Telecommunication at Bialystok University of Technology

Explanation of symbols:
ET1 (before underscores) – learning outcomes for the field of study for first cycle courses in the field of Electronics and Telecommunication;
W – category of knowledge;
U – category of skills;
K – category of social competence;
T1A – learning outcomes for the area of technical sciences for first cycle courses
01, 02, 03 and subsequent numbers – learning outcome number;

Symbol - After having completed a first cycle course, graduates of Electronics and Telecommunication - Reference to learning outcomes for the area of technical sciences
KNOWLEDGE
ET1_W01 - have a systematised knowledge of mathematics, involving algebra, analysis, mathematical logics, probability theory, theory of stochastic processes, as well as elements of discrete and applied mathematics, including mathematical and numerical methods, necessary for: describing and analysing electric circuits, the basic electronic elements, analogue and digital electronic systems, and also the basic physical phenomena occurring in them; describing, analysing, and combining electronic and telecommunication systems; describing and analysing signal processing algorithms, including sound and picture signals and also signals used in multimedia applications - T1A_W01, T1A_W07
ET1_W02 - have the knowledge of physics, involving mechanics, thermodynamics, optics, the fundamentals of quantum mechanics, electricity, magnetism, and solid-state physics, including the knowledge necessary to understand the basic physical phenomena occurring in electronic as well as telecommunication systems and components, and also in their environment - T1A_W01
ET1_W03 - have a detailed knowledge of the theory of electric circuits, as well as signal theory and contemporary methods of signal processing - T1A_W03, T1A_W04
ET1_W04 - have a basic knowledge of algorithms applied in multimedia applications - T1A_W04
ET1_W05 - have a detailed knowledge of metrology; graduates know and understand methods of measuring the basic quantities characterising electronic and optoelectronic systems and their components, and know computational methods and information technology tools necessary for analysing measurement results of physical quantities and of measurement uncertainty - T1A_W03, T1A_W04, T1A_W07
ET1_W06 - have a detailed knowledge of the methodology and programming techniques, including programming of microprocessor systems (high-level and low-level programming languages) - T1A_W03,
T1A_W04, T1A_W07
ET1_W07 - have an elementary knowledge of the materials used in the electronic and optoelectronic industry - T1A_W02, T1A_W07
ET1_W08 - have a detailed knowledge of the principles of the functioning of electronic elements and circuits as well as simple electronic, optoelectronic, and telecommunication systems - T1A_W03, T1A_W04
ET1_W09 - have a systematised knowledge of photonics, including the knowledge necessary to understand the physical fundamentals of the functioning of optical telecommunication systems, including optical fiber telecommunication systems, as well as optical information recording and processing - T1A_W01, T1A_W03, T1A_W04
ET1_W10 - have a systematised, theoretically-based knowledge of electromagnetic fields and waves, and also the knowledge of signals (including high frequency signals), their generation, transmission and detection - T1A_W01, T1A_W03, T1A_W04
ET1_W11 - have a systematised knowledge of signal and data transmission in telecommunication as well as of information and communication technology wired and wireless systems and networks; graduates also have an elementary knowledge of establishing connections in telecommunication networks - T1A_W03, T1A_W04, T1A_W07
ET1_W12 - have a systematised knowledge of the computer architecture, systems, networks, and operating systems - T1A_W02, T1A_W03, T1A_W07
ET1_W13 - have a detailed knowledge of devices which are components of telecommunication networks as well as information and communication technology networks; graduates also have a detailed knowledge of configuring these devices in local and wide area networks - T1A_W03, T1A_W04, T1A_W07
ET1_W14 - have an elementary knowledge of control and automatic control in electronic and telecommunication systems - T1A_W02
ET1_W15 - have a basic knowledge of digital and microprocessor technology (including programmable logic devices) - T1A_W03, T1A_W07
ET1_W16 - have an elementary knowledge of designing, constructing, manufacturing, and operating electronic and telecommunication devices as well as of the life cycle of these devices - T1A_W03, T1A_W04, T1A_W06
ET1_W17 - have the knowledge of the current state of knowledge as well as of contemporary development trends in electronics, telecommunications, and photonics - T1A_W05
ET1_W18 - have a basic knowledge necessary to understand non-technical constraints in engineering activities, and know the basic occupational safety and health principles - T1A_W08
ET1_W19 - have an elementary knowledge of the protection of intellectual property and patent law, as well as an elementary knowledge of management, including quality management, and of conducting business activity - T1A_W10, T1A_W09
ET1_W20 - have a general knowledge of the grammar of a foreign language and the vocabulary enabling them to participate in discussions on technical topics concerning electronics and telecommunications and also to understand and create sophisticated texts concerning these disciplines - T1A_W01
ET1_W21 - have a basic knowledge of the structures and functions of the legal, social, and economic systems, and know general principles of creating and developing various forms of individual business activity - T1A_W11
SKILLS
ET1_U01 - can obtain information from literature, databases, and other sources, also in a foreign language; graduates can integrate the obtained information as well as interpret it; they can also draw conclusions, and formulate and justify their opinions - T1A_U01
ET1_U02 - can work individually as well as in a group; graduates can estimate the time period needed for the realization of a designated task; they can develop and implement work schedules ensuring completing tasks within the specified period of time - T1A_U02
ET1_U03 - can develop technical documentation on the implementation of engineering tasks; graduates can also prepare written texts and oral presentations concerning the method of accomplishing these tasks and provide overviews of the results (also in a foreign language) - T1A_U03, T1A_U04
ET1_U04 - have a knowledge of a foreign language at a level which is sufficient for communication and for reading and understanding specification sheets, application notes, and operating instructions of electronic devices, information technology tools, technical documentations, and similar documents - T1A_U01, T1A_U06
ET1_U05 - have the ability to self-educate, among others, in order to develop their abilities and improve their professional competence - T1A_U05
ET1_U06 - can apply the mathematical methods and models they have studied, and also computer simulations, for analysing and evaluating the basic engineering issues, in particular for analysing and evaluating the functioning of electronic and optoelectronic components and circuits as well as telecommunication systems - T1A_U08, T1A_U09
ET1_U07 - can analyse signals and simple signal processing systems in respect of time and frequency, using analogue and digital technologies as well as the appropriate hardware and software tools - T1A_U07, T1A_U08, T1A_U09
ET1_U08 - can make use of appropriately selected integrated development environments, simulators, and computer-aided design tools in describing, simulating, designing, and verifying electronic systems as well as simple electronic, telecommunications, and multimedia systems - T1A_U07, T1A_U08, T1A_U09
ET1_U09 - can use appropriately selected methods and devices enabling them to measure the basic quantities characteristic of electronic signals, elements and circuits as well as telecommunications systems (including optoelectronic, fibre-optic and wireless systems) - T1A_U08, T1A_U09
ET1_U10 - can plan measurements of electrical and optical characteristics as well as the basic parameters in electronic and telecommunication systems; graduates can determine the measurement uncertainty as well as present the obtained results in the numerical and graphical form, interpret the results (within the framework of their knowledge), and draw the appropriate conclusions - T1A_U07, T1A_U08
ET1_U11 - can plan testing processes of simple electronic and telecommunication circuits and systems as well as perform the tests; in case errors are detected, graduates can diagnose these errors, using the appropriate diagnosing methods - T1A_U08, T1A_U13
ET1_U12 - can formulate specifications of simple electronic and telecommunication circuits and systems at the level adequate to the functions of these circuits and systems, also with the use of hardware description languages - T1A_U14
ET1_U13 - can design simple electronic systems as well as simple electronic and telecommunication systems, including simple digital signal and data processing systems, taking into account the predefined functional and economic criteria, and using appropriate methods, techniques and tools - T1A_U12, T1A_U16
ET1_U14 - can use specification sheets and application notes in order to select the appropriate components of the designed electronic, optoelectronic, and telecommunication circuits or systems - T1A_U01, T1A_U16
ET1_U15 - can plan the processes of producing simple electronic devices, and evaluate their costs - T1A_U12,
T1A_U16
ET1_U16 - can design simple printed circuit boards as well as design, construct, launch, and test simple electronic or telecommunication systems - T1A_U16
ET1_U17 - can configure communication devices in local (wired and wireless) information and communication technology networks - T1A_U13, T1A_U16
ET1_U18 - can formulate data processing algorithms, use programming languages and the appropriate information technology tools for developing computer software as well as microprocessor software in electronic and telecommunication systems - T1A_U07, T1A_U09
ET1_U19 - are aware of non-technical aspects of tasks involving the design of electronic and telecommunication circuits and systems (including also the environmental, economic, and legal aspects) while formulating and solving these tasks - T1A_U10
ET1_U20 - adhere to the principles of occupational safety and health - T1A_U11
ET1_U21 - can evaluate the relevance of methods and tools used for solving simple engineering tasks typical of electronics and telecommunication, as well as select and apply the appropriate methods and tools - T1A_U15
SOCIAL COMPETENCE
ET1_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
ET1_K02 - understand and realise the importance of non-technical aspects and results of professional activities in the field of electronics and telecommunication, including the influence of these activities on the environment, and the responsibility for decisions pertaining to the activities - T1A_K02
ET1_K03 - realise the importance of behaving in a professional way, adhering to the principles of professional ethics as well as respecting the diversity of opinions and cultures - T1A_K05
ET1_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
ET1_K05 - can determine priorities as well as identify and solve dilemmas connected to implementing tasks defined by themselves or other people - T1A_K04
ET1_K06 - can think and work in a creative and enterprising way - T1A_K06
ET1_K07 - are aware of the social role of graduates of technical universities; in particular, they understand the need to formulate and communicate to the society (among others, through the mass media) information and opinions concerning achievements in electronics, telecommunication, and other aspects of engineering in this field; graduates endeavour to communicate such information and opinions in a commonly understandable way - T1A_K07

Admission procedures:

Visit the following page for details on admission procedures: https://irk2.uci.pb.edu.pl