computer science (I-NM3O)

In the area of knowledge, the faculty graduate:
• has an extended and in-depth knowledge of some areas of mathematics, that entail such issues as: elements of set theory, discrete and applied mathematics, together with the inclusion of mathematical methods for the analysis and synthesis of digital signal processing algorithms and image processing algorithms,
• has an extensive knowledge of the mathematical foundations of information theory, algorithm theory and cryptography and their practical applications,
• has knowledge of computer architecture, including parallel, multiprocessor and microcomputers;
• has knowledge of modern programming techniques: (object-oriented, concurrent and parallel programming, functional languages);
• has extensive knowledge of information analysis and processing methods used in computational intelligence and knowledge engineering;
• has a thorough knowledge of methodologies and techniques of analysis, design, modeling, testing, development and maintenance of software;
• knows the techniques of procedural, functional and object-oriented programming and the importance of code quality;
• has an ordered and theoretically founded knowledge of devices included in computer networks, including wireless networks, and the architecture and configuration of these devices in local and wide area networks;
• is aware of the current state and the latest development trends in IT;
• can use information and communication techniques, including those applied to software engineering,
• has knowledge of computer graphics and image processing methods,
• has a thorough knowledge of methods of searching and collecting information, as well as exploration of the obtained data;
• has structured knowledge of decision support systems and other artificial intelligence (AI) systems;
•has a thorough knowledge of data security in computer systems;
• has basic knowledge to understand social, economic, legal and other non-technical conditions of engineering activity, knows the basic principles of occupational health and safety applicable in IT;
• has extensive knowledge in the field of intellectual property protection and patent law;
• has knowledge of the operation of forms of individual entrepreneurship;
• has detailed knowledge of theoretical and practical aspects of electronics, computer systems architecture and operating systems;
• has detailed knowledge of network technologies;
• knows and understands the processes of designing and operating information systems, as well as methods and techniques used in design and operation, including the methods concerning the use of artificial intelligence, graphics and human-computer communication, and/or these concerning the use of embedded systems;

In the area of skills, the faculty graduate:
• has the ability to obtain information from literature, internet sources, databases and other sources; is able to analyze, interpret and filter information in order to draw conclusions and form an opinion and use it in the issues of creating IT systems;
• has the ability to work individually and in a team, can lead a small team, can develop and implement a work schedule that ensures meeting deadlines;
• knows how to develop detailed documentation regarding the implementation of a project task and is ready for the preparation of the results of this task;
• knows how to prepare and present an oral presentation on the implementation of a project task and lead a discussion on the presented presentation;
• is able to define and implement the process of self-education, among others in order to improve his/her own professional competences;
• can use the English language sufficiently to communicate, as well as to read and understand technical documentation and deliver a short presentation on the implementation of the project task (skills in accordance with the requirements specified for the B2 + level of the CEFR - Common European Framework for Reference to Languages);
• can create a mathematical model in the field of computer science and analyze the formal description;
• can use the known methods and mathematical models to solve design tasks, so as to analyze and evaluate the operation of electronic, mechanical and other systems, among others;
• knows how to design, build, run and test an electronic system;
• can - when formulating and solving tasks involving the design of elements and/or systems - see their non-technical, legal and economic aspects;
• knows and applies the obligatory rules of health and safety at work;
• knows how to configure communication devices and construct a local and wide area network, as well as select the appropriate network service for a specific implementation and equipment;
• can design and implement an algorithm that performs a specific programming task;
• can use the commands and syntax of high and low level programming languages, and/or appropriate programming environments;
• knows how to use typical methods and IT tools for practical tasks;
• knows how to build an application with a given application, multimedia included, by selecting and using the appropriate method and design tools;
• can design and create artificial intelligence (AI) systems, decision support systems and computational intelligence (CI) included;
• can design and modify data exploration systems: collecting, grouping and retrieving information;
• can effectively use various methods of data exploration and manipulation in database systems;
• is able to design and practically apply solutions ensuring data security in IT systems;
• knows and is able to use tools supporting design works;
• can effectively use various methods of data exploration and manipulation in database systems.

In the area of social competences, the faculty graduate:
• knows the possibilities and methods of continuous training beyond the scope of the material of the second cycle studies and understands the need to improve professional, personal and social competences;
• is aware of the effects of civilization related to scientific and technical progress, and/or other activities of a holder of the master's degree in computer science, including his/her impact on the living conditions of society and the natural environment;
• is able to lead a group implementing an IT project and act as an inspiring - mentor for people with whom s/he works;
• can set operational and strategic goals of an IT project, define priorities of tasks related to its implementation and control its course;
• can behave in a professional manner and observe professional ethics, including aspects related to the protection of intellectual property, respect for the diversity of views;
• can identify new design and business challenges, including those related to the innovation of IT projects;
• is aware of the role of an educated IT engineer in the local society, in particular regarding the promotion of modern IT solutions, their impact on improving the quality of life of the region's inhabitants and the quality and competitiveness of their work, as well as identifying the risks they bring;
• is able to formulate and convey the acquired knowledge, information and opinions in a way that is understandable to the average user of IT systems.
The study program was established by the Resolution No. 1551/07/VI/2020 of the Senate of the University of Bielsko-Biala of July 14th, 2020.

Learning outcomes in the field of Computer Science, second-cycle studies, educational profile: general academic:
1. In terms of knowledge, the studies’ graduate:
- has extended and in-depth knowledge of some branches of mathematics, including elements of set theory, discrete and applied mathematics, including mathematical methods for the analysis and synthesis of digital signal processing algorithms and image processing algorithms;
- has extensive knowledge of the mathematical foundations of information theory, theory of algorithms and cryptography and their practical applications;
- has knowledge of computer architecture, including parallel computers, multiprocessors and microcomputers;
- has knowledge of modern programming techniques: (object-oriented, concurrent, parallel programming, functional languages);
- has extensive knowledge of information analysis and processing methods used in computational intelligence and knowledge engineering;
- has a thorough knowledge of methodologies and techniques of analysis, design, modeling, testing, development and maintenance of software; knows the techniques of procedural, functional and object-oriented programming and the importance of code quality;
- has structured and theoretically-based knowledge of devices incorporated in computer networks, including wireless networks, as well as the architecture and configuration of these devices in local and wide area networks;
- knows the current state and the latest development trends in computer science; is able to use information and communication techniques, including application to software engineering;
- has knowledge of computer graphics and image processing methods;
- has a thorough knowledge of the methods of searching and gathering information and data mining;
- has structured knowledge of decision support systems and other artificial intelligence systems;
- has a thorough knowledge of data security in computer systems;
- has basic knowledge to understand the social, economic, legal and other non-technical conditions of engineering activity, knows the basic principles of occupational health and safety applicable in IT;
- has extensive knowledge in the field of intellectual property protection and patent law;
- has knowledge of the operation of forms of individual entrepreneurship;
- has detailed knowledge of the theoretical and practical aspects of electronics, computer systems architecture and operating systems;
- has detailed knowledge of network technologies;
- knows and understands the processes of designing and operating information systems, as well as methods and techniques used in designing and operating, including methods of artificial intelligence, graphics and human-computer communication, embedded systems.
2. In terms of skills, the studies’ graduate:
- knows how to obtain information from literature, Internet sources, databases and other sources; is able to analyze, interpret and filter information in order to draw conclusions and formulate opinions and use it in the issues of creating IT systems;
- knows how to work individually and in a team; is able to manage a small team; is also able to develop and implement a work schedule that ensures meeting deadlines;
- knows how to develop detailed documentation regarding the implementation of the project task and prepare the elaboration of the results of this task;
- knows how to prepare and present an oral presentation on the implementation of a project task and lead a discussion on the presented presentation;
- is able to define and implement the process of self-education, e.g. in order to improve professional competences;
- can apply the English language at a sufficient level to communicate, as well as to read and understand technical documentation; is able to give a short presentation on the implementation of the project task (skills in accordance with the requirements set out for level B2+ of the Common European Framework of Reference for Languages);
- can create a mathematical model in the field of computer science and analyze its formal description;
- is able to use the known mathematical methods and models to solve design tasks, e.g. for analyzing and evaluating the operation of electronic, mechanical and/or other systems;
- knows how to design, build, launch and test an electronic circuit or system;
- can - when formulating and solving tasks involving the design of elements, circuits and systems - perceive their non-technical, legal and economic aspects;
- knows and applies the rules of occupational health and safety;
- knows how to configure communication devices, construct a local and wide area network and select the appropriate network service for a specific implementation and possessed equipment;
- knows how to design and implement an algorithm that performs a specific programming task;
- is able to use the commands and syntax of high and low level programming languages and appropriate programming environments;
- knows how to apply typical IT methods and tools to practical tasks
- knows how to build an application for a given application, including multimedia, by selecting and using the right method and design tools;
- is able to design and create artificial intelligence systems, including decision support and computational intelligence systems;
- is able to design and modify data mining systems: collecting, grouping and searching for information; is able to effectively use various methods of data exploration and manipulation in database systems;
- is able to design and practically apply solutions ensuring data security in IT systems; knows how to design and implement an IT system by defining the basic structural and object models of the designed system and full documentation of work;
- knows how to use tools supporting design work;
- is able to effectively use various methods of data exploration and manipulation in database systems.
3. In terms of social competences, the studies’ graduate:
- knows the possibilities and methods of continuous training going beyond the scope of the second-cycle studies and understands the need to improve professional, personal and social competences;
- is aware of the effects of civilization related to scientific and technical progress and the related activities of the Master of Science in Computer Sciences, including its impact on the living conditions of society and the natural environment;
- is able to lead a group implementing an IT project and act as an inspirational mentor for people with whom he works;
- is able to set the operational and strategic goals of an IT project, outline the priorities of tasks related to its implementation and control its course;
- can behave in a professional manner and observe professional ethics, including aspects related to the protection of intellectual property, respect for the diversity of views;
- is able to identify new design and business challenges, including those related to the innovativeness of IT projects;
- is aware of his/her role as an educated IT engineer in the local society, in particular regarding the promotion of modern IT solutions, their impact on improving the quality of life of the inhabitants of the region and the quality and competitiveness of their work, but also identifying the risks they carry; is able to formulate and convey the acquired knowledge, information and opinions in a way that is understandable to the average user of IT systems.

The study program was established by Resolution No. 1551/07/VI/2020 of the Senate of the University of Bielsko-Biala of July 14, 2020.