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Informatics
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The main aim of the Programme is to prepare higher qualification Informatics specialists that meet the requirements of the modern knowledge-based and information-based economy. Bachelor in Informatics (Computer Science) has: a grasp of the essential principles and theoretical background of computer science, the ability to apply analytical, modeling and numerical techniques to problem formulation and solving in the field of informatics and information technologies, an understanding of the software systems and services life cycle processes, and a range of transferable skills including communication, project management and team work.
Learning outcomes:
Deep knowledge and understanding of mathematics and theoretical informatics (computer science), understanding of the scope of modern achievements of information and communication technologies and their limitations.
Deep knowledge of software engineering and modern integrated computer systems life cycle processes, comprehensive awareness of methods of their implementation, and understanding and interpretation of a wider spectrum of informatics discipline, including such emergent areas as computational science and intelligence.
Knowledge of the fields of the humanities and social sciences, understanding of management and interdisciplinary issues of informatics, including project and quality management, necessary for the achievement of one‘s professional aims and for the development of erudition and broad world outlook.
Comprehensive awareness of information systems and software engineering processes, deep understanding of software life cycle models, requirement analysis; architectural and component design, programming and implementation, testing, maintenance, improvement and quality assurance procedures and standards, as well as fresh ability to apply them.
Ability to plan and carry out information retrieval, storage, processing, visualization and interpretation processes, modeling and design of human computer interaction, investigation skills and ability to effectively participate in the analytical, modeling and experimental research and draw conclusions.
Ability to integrate knowledge, to select and apply appropriate informatics methods, tools, programming languages and modern programming environments, while developing integrated intelligent systems and solving complex problems in traditional and new application areas and projects.
Ability to holistically assess existing and emerging systems, to apply professional judgment, balancing the costs, profits, quality, safety and security, reliability, usability, appearance and environmental impact.
Ability to critically evaluate the suitability of applied informatics methods and technologies to the problem in question, ability to take independent decisions, provide operational strategies that are based on the acquired knowledge of informatics, artificial intelligence and software engineering.
Ability and skills to work independently and efficiently in their professional field, ability to clearly and convincingly convey the results of the work to professionals and other persons, dealing with professional challenges and adjacent areas’ tasks.
Ability to communicate effectively and work in a team, that may be composed of different field, expertise and nationality of people, collaboration abilities and skills to communicate the requirements of the client in the specification, designing and implementation of smart computer systems and software.
Activities of teaching and learning:
Lectures
Workshops
Laboratory
Seminars
Individual counselling
Case studies
Practice
Methods of assessment of learning achievements:
Exam
Colloquium
Control work
Laboratory work report and the defence
Practice report
Final work
Framework:
Study subjects (modules), practical training:
Operating systems
Object programming
Webpage design
Web technologies and programming
Computer electronics
Computer architecture
Computer graphics
Data structures and algorithms
Discrete mathematics and algorithms theory
Computer hardware systems
Computer networks and information security
Databases
Numerical methods and mathematical modeling
Software systems engineering
Professional practices
Final Practice
Bachelor's final thesis
Specialisations:
Smart systems development,
Software development,
Optional courses:
Development of distributed systems (Java)
Software testing, management and configuration maintenance
Programming. NET
Open source electronics prototyping platforms
Modelling of automatic control systems
Real-time operating systems
Robotics and mechatronics
Cryptology
Distinctive features of a study programme:
More than fifteen years experience of computer science study program implementation, students have ability to choose one of the following specializations: applications systems, intelligent systems.
Access to professional activity or further study:
Access to professional activity:
Programme outcomes ensure the preparation of the Informatics Bachelors can work as Computer specialists, which including programmers, database and GIS specialists and administrators, computer systems and computing specialists, analysts and designers, software engineers, information technology engineers, network administrators and engineers, etc.
Access to further study:
Access to the postgraduate studies at a higher education institution established in accordance with the procedure.
