computer science (I-NI7O)

Learning outcomes in the field of Computer ScienceS, first-cycle studies, educational profile: general academic
1. In terms of knowledge, the studies’ graduate:
- has knowledge of mathematics, including elements of algebra, mathematical analysis, probability theory and statistics, including mathematical methods necessary for:
/a/ analysis of analog and digital electrical circuits;
/b/ analysis of signal processing algorithms;
/c/ analysis of information processing, storage and transmission.
- has knowledge in the field of physics, including mechanics, thermodynamics, optics, electricity and magnetism, nuclear physics and solid state physics, including the knowledge necessary to understand the basic physical phenomena in IT systems and networks, electronic systems used in IT devices and in their environment;
- has elementary knowledge of algorithms and complexity:
- has a structured knowledge of programming methods and techniques;
- has structured and theoretically-based knowledge of programming languages and paradigms;
- has detailed knowledge of the theoretical and practical aspects of electronics, computer systems, architecture and operating systems;
- has detailed knowledge of network technologies;
- has structured and theoretically-based knowledge of databases;
- has structured and theoretically-based knowledge in the field of software engineering;
- knows and understands the processes of designing and operating IT networks, as well as methods and techniques used in designing and operating, including methods of artificial intelligence, graphics and human-computer communication, embedded systems;
- has structured and theoretically-based knowledge in the field of creating network applications, including those related to the use of NoSQL databases, parallel computing and distributed systems;
- has structured and theoretically-based knowledge in the field of running and managing an IT project, both programming and producing IT infrastructure;
- has structured knowledge of the use of IT and ICT systems, including distributed wide area networks, and their use in the analysis and processing of data and images;
- has structured knowledge of the elements of information systems and Internet technologies;
- has structured knowledge in the field of network data transmission and their use in creating Internet solutions;
- has structured knowledge in the use of packet network services and the development of business applications;
- has structured knowledge in the field of information protection, including cloud computing technology;
- knows the current state and prospects for the development of information technology;
- has elementary knowledge about the life cycle of IT devices and systems, and software;
- has the basic knowledge necessary to understand the non-technical conditions of engineering activities;
- knows the basic principles of occupational health and safety and the role of ergonomics in the working environment;
- has elementary knowledge in the field of intellectual property protection and patent law;
- has elementary knowledge of management, including quality management, and running a business;
- knows the general principles of creating and developing forms of individual entrepreneurship;
2. In terms of skills, the studies’ graduate:
/a/ general skills (not related to the field of engineering education):
- is able to obtain information from literature, databases and other sources both in Polish and English; is also able to integrate the obtained information, interpret it, and draw conclusions as well as formulate and justify opinions;
- is able to use various techniques of communication in the professional environment and in other environments;
- uses IT tools;
- is able to prepare documentation in Polish and in English concerning the implementation of a task in the field of the studied engineering discipline and prepare information containing a discussion of the results of the implementation of this task and prepare a report documented with relevant literature footnotes;
- is able to prepare a presentation in Polish and English on the results of own research and solving an engineering problem in computer science;
- is able to independently find and use the literature on the subject and is able to assimilate knowledge in the field given by the teacher as part of self-education;
- speaks English at a sufficient level to communicate, as well as to read and understand catalog cards, user manuals for IT devices and tools, and similar documents;
/b/ basic engineering skills:
- can use properly selected information and communication techniques, programming environments and simulators to perform the activities related to simulation, design and verification of elements and systems of computer systems and networks;
- can use the known methods and mathematical models, as well as computer simulations to analyze and evaluate the operation of algorithms, software and devices of information systems and networks;
- is able to create, conduct research and analyze mathematical and software models of computing and information processes related to the functioning of IT systems and networks, using analog and digital techniques, as well as appropriate hardware and software tools;
- is able to analyze and select computational methods to solve the problems of designing information systems according to the criteria of minimizing computational costs, stability, complexity, etc.;
- is able to compare the design solutions of mathematical, linguistic and IT support elements (logical and physical structure of databases) of IT systems due to the given utility, economic and security criteria;
- can perform an engineering measurement in the field of information technology and electronics, determine its uncertainty, and present the obtained results in numerical and graphical form, interpret them and draw appropriate conclusions;
- is able to perceive non-technical aspects of solving engineering problems in the field of computer sciences, including environmental, economic and legal ones;
- can assess the ethical aspects of engineering activities and their impact on society;
- makes rational decisions in the field of management and building organizational structures in the work environment;
- applies health and safety rules in the working environment; is able to organize work in a safe way for themselves and the team;
- is able to make a preliminary economic analysis of the developed IT system project;
/c/ skills directly related to solving engineering tasks:
- is able to assess the existing solutions of IT elements, their functioning, usefulness and applicability for a specific system or IT network;
- can analyze the operation of the system and IT networks, and the possibility of introducing IT elements to improve and optimize their operations;
- is able to design the testing process of a software component and - in case of detecting errors - to diagnose them;
- can make a critical analysis of the results of structural and functional testing of an IT system;
- can identify and perform a specification in the field of engineering simple tasks in the field of computer science;
- is able to determine the parameters and desirable features of IT elements and develop the stages of building a simple IT system;
- is able to assess the usefulness of routine methods and tools for solving simple engineering tasks typical of computer sciences, and to select and apply appropriate methods and tools;
- can correctly select the calculation method, programming language, software, simulation method or direct intervention in a malfunctioning IT system;
- can install and configure devices, systems, networks (wired and wireless) and IT services;
- can, working in a team, design, launch and test software components, a device or a simple IT system;
- can, working in a team, plan and supervise maintenance tasks of devices, systems and IT networks to ensure their reliable operation;
3. In terms of social competences, the studies’ graduate:
- understands the need and knows the possibilities of continuous training - improving professional, personal and social competences;
- is aware of the civilizational implications of scientific and technological progress and the related activities of an IT engineer, and their impact on the living conditions of societies and the natural environment;
- is able to work in a team as an inspiring person, either as a group leader or a group member;
- is able to set strategic and operational goals and priorities regarding the implementation of a task defined by himself or others;
- is aware of the importance of behaving in a professional and entrepreneurial manner, observing the principles of professional ethics, occupational health and safety, protecting intellectual property and respecting the diversity of views and cultures;
- is able to define economic goals and take up new design and business challenges in the field of technical devices, in particular IT;
- 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; is also able to formulate and convey the acquired knowledge, information and opinions in a way that is understandable to the average citizen;

The study program was established by Resolution No. 1471/09/VI/2019 of the Senate of the University of Bielsko-Biala of September 6, 2019.

Specification of learning outcomes for the direction of studies: “Computer Science”, B.Sc. level, general academic profile:

1) in respect to knowledge, a faculty graduate:

- has knowledge within the range of mathematics, enclosing the elements of algebra, mathematical analysis, probabilistics and statistics, among them – the mathematical methods necessary for:
- analysis of analogue and digital electric circuits,
- analysis of algorithms of signal processing,
- analysis of processing, retrieval and transmission of information.
- has knowledge within the range of physics, enclosing: mechanics, thermodynamics, optics, electricity and magnetism, nuclear and solid body physics, among them the knowledge necessary for understanding of basic physical phenomena of computer systems and networks as well as electronic systems applied in informatics devices and their peripherals,
- has elementary knowledge within the range of algorithms and their complexity,
- has well-grounded knowledge within the range of methods and techniques of programming.
- has well-grounded and theoretically based knowledge within the range of languages and paradigms of programming,
- has detailed knowledge within the range of theoretical and practical aspects of electronics, architecture of computer systems and operational systems,
- has detailed knowledge within the range of network technologies,
- has well-grounded and theoretically based knowledge within the range of data bases,
- has well-grounded and theoretically based knowledge within the range of software engineering,
- knows and understands the processes of design and operation of information networks, and also methods and techniques applied in design and operation – enclosing e.g.: methods of artificial intelligence, computer graphics and communication man-computer as well as embedded systems.
- has well-grounded and theoretically based knowledge within the range of object data bases, parallel calculations/computing and distributed systems,
- has well-grounded and theoretically based knowledge within the range of modelling language UML and project management,
- has detailed knowledge within the range of advanced methods programme engineering, translators and image processing,
- has detailed knowledge within the range of elements of information systems,
- has detailed knowledge within the range of programing for Internet,
- has detailed knowledge within the range of creation of multi-layer business and mobile applications,
- has well-grounded knowledge within the range of technology of so called “calculation cloud”,.
- knows the current state and perspectives of development of computer science,
- has elementary knowledge concerning the product life-cycle of information devices and systems and software,
- has elementary knowledge necessary for understanding non-technological conditions of engineer activities,
- knows basic rules of WHS (workplace health and safety) and a role of ergonomy in work place,
- has elementary knowledge within the range of intellectual property protection and patent law,
- has elementary management knowledge related to TQM (quality management) and running an enterprise,
- knows general rules of establishing and development of individual entrepreneurship.

2) in respect to skills:
a) general skills (not related to the field of engineer education):

- is able to extract information from references, data bases and other sources, in both languages Polish and English; is able to aggregate the achieved information, interpret it, and draw conclusions as well as formulate and support the opinions,
- is able to apply versatile communication techniques within the professional work environment and other groups of workers,
- uses the informatics tools,
- is able to prepare the technical specification (in Polish and English) concerning performance of a project related to the studied engineer field and prepare an information containing description of performance of this task as well as prepare a report enclosing the reliance on the references,
- is able to prepare a presentation (in Polish and English) enclosing the results of own investigations and solving of particular engineer problem within the range of informatics (computer science),
- is able to find on her/his own the relevant references and used them correctly as well as – is able to self-learning within the range encircled by a teacher for individual study,
- her/his spoken English level is enough for communication, and also for reading (with understanding) the catalogue technical specifications (catalogue sheets/cards), operation instructions of computer devices and tools as well as similar documents,

b) basic engineer skills:
- is able to use, properly chosen, information-communication techniques, programming environments and simulation techniques for simulation, design and verification of computer elements, units, systems and networks,
- is able to apply the taught methods and mathematical models, and computer simulation for an analysis and an evaluation of performance of computer algorithms, software, hardware, systems and network,
- is able to build, perform investigations and make an analysis of mathematical models as well as calculations and information processes connected with functioning of computer systems and networks, applying analogue and digital techniques and proper hardware and software devices and tools,
- is able to make an analysis and chose the calculation methods for solution of the design tasks of computer systems taking into account the criteria of minimization of calculation costs, stability, complexity etc.,
- is able to compare the design solutions considering mathematical, linguistic and information aid (logic and physical structure of data bases) – for different information systems taking into account the assumed usage, economic and safety criteria,
- is able to perform an engineering measurements within the range of information science and electronics, determine their uncertainty as well as present the obtained results in digital and graphical form, make their interpretation and draw proper conclusions,
- for the done engineers works (within the computer science field), is able to recognize their non-technological aspects – among them: related to environment protection, economy and law,
- is able to evaluate the ethic aspects of engineering activities and their influence on society,
- makes rational decisions within the range of management and building of organizational structures of the enterprise,
- respects the WHS (workplace health and safety) in work environment; - is able to organize the work in a safety way for herself/himself and for the team as a whole,
- is able to make an introductory economic analysis of prepared design of a particular information system;

c) skills connected directly with solving engineering tasks:

- is able to evaluate the existing solutions of informatics tools (software and hardware) according to their functionality, usefulness and possibilities of their application to a particular information system or network,
- is able to analyse the performance of information systems and networks as well as possibilities of introduction of particular informatics-based elements for improvement and optimization of their operation,
- is able to design a process of testing of software items/components and — in case of detection of errors — perform their diagnosis,
- is able to make a critical analysis of results of structural and functional testing of computer systems,
- is able to identify and describe/formulate (in engineer approach) simple information tasks,
- is able to determine the needed parameters and properties of information elements and to map out the phases of building a simple information system,
- is able to evaluate the usefulness of standard methods and tools for solution of simple engineering tasks typical for computer science /informatics/ as well as chose and use proper methods and tools,
- is able to choose properly the calculation method, programming language, software, simulation method or direct intervention in the improperly operating information system,
- is able to install and configure the information devices, systems, networks (wire-based and wire-less) as well as information services,
- is able to design, launch and test – information components, software, device and simple system,
- is able to plan and to oversee the operational tasks of information devices, systems and networks aiming for assurance of their reliable running/operation;

3) in respect to social competences:
- understands the need and knows the possibilities of long-life learning – aiming for improvement od professional, personal and social competences,
- is aware of civic implication of the science and technology development and relevant activities of a computer engineer and their influence on life conditions of society and natural environment,
- is able to work on team as a leader or a member of the group,
- is able to determine the strategic and operational goals and determine the priority of performance of the task determined by herself/himself or other workers,
- is aware of importance of professional behaviour, respecting the rules of professional ethics, WHS (workplace health and safety), intellectual property protection and respecting diversity of opinions and cultures,
- is able to determine the economic goals and to face new challenges concerning design and business related to technical devices, especially computer-based ones,
- is aware of her/his role as a well-educated computer engineer among the local society, in particular related to propagation of modern computer solutions, their influence on improvement of life quality of the regional inhabitants as well as quality and competitiveness of their work; is able to share the achieved knowledge,
- is able to pass the information and formulate the opinions in such a manner that they are understandable for an ordinary citizen.

The Learning Outcomes for the B.Sc. level of studies of the general academic profile within the field Technical Sciences for the direction of studies: „Computer Science” were approved by the Resolution no 817/07/IV/2012 of the Senate of the University of Bielsko-Biala dated at 4th JULY 2012 entitled “On the approval of the Learning Outcomes for the study programmes taught at the Faculty of Machine Building and Computer Science.
The study program specified in Resolution No. 1487/9/2017/2018 of the Faculty of Mechanical Engineering and Computer Science of June 12th, 2018.