Applied mathematics and informatics

The Applied Mathematics and Informatics program is designed to prepare specialists who possess a solid foundation in mathematical methods along with a strong command of modern computer technologies. The curriculum fosters rigorous analytical and logical thinking, equipping graduates to excel in various sectors—from scientific research and high-tech industries to business and public administration.

The Role of Mathematics and Informatics

Mathematics is traditionally viewed as the cornerstone of intellectual culture and the basis of a liberal education essential for today’s world. By studying advanced mathematics, students learn how to formulate and solve complex problems, as well as to logically defend their ideas with clear, data-driven arguments.

Informatics, in turn, actively utilizes mathematical analysis, algorithmic theory, and computational approaches to develop software and sophisticated information systems. Modern computer technologies enable the automation of numerous processes and provide innovative tools that significantly enhance the capabilities of mathematical modeling in diverse fields.

Applied Focus of the Program

A defining feature of this degree track is its emphasis on the practical application of theoretical knowledge. Applied mathematics addresses not only abstract theories but also the direct resolution of real-life challenges in the natural sciences, engineering, economics, and the social sciences.

The rapid evolution of computer sciences adds another applied dimension: high-performance computing systems and specialized software now make it possible to handle complex mathematical models capable of precise forecasting, scenario analysis, and effective decision-making. Graduates can analyze and predict economic developments, model natural phenomena, manage advanced production processes, and create cutting-edge IT solutions.

Curriculum Structure and Content

The program covers a broad range of mathematics- and informatics-related subjects, including:

• Core Mathematics : Mathematical analysis, linear algebra, probability theory and statistics, differential equations, and discrete mathematics
• Applied and Computational Modeling : Mathematical models in physics and economics, computer-based solutions to equations, and computational error analysis
• Informatics and Programming : High-level programming languages (C++, Java, Python), algorithm design and analysis, database systems, computer networks, and software engineering fundamentals
• Specialized Electives : Machine learning, game theory, optimization methods, big data analytics, web development, information security, among others, depending on individual interests

The educational process integrates mandatory practical sessions, lab work, and project-based assignments to strengthen students’ skills in programming, data processing, and mathematical modeling. Self-guided and research-oriented study are strongly encouraged. Toward the end of their studies, students defend a final thesis demonstrating their ability to apply mathematical and computational methods to a real-world problem.

Competencies Acquired

Upon successful completion of the program, graduates develop key competencies such as:

1. Mathematical Proficiency
   Aptitude for abstract reasoning, complex problem-solving, and the accurate application of mathematical methods and models
2. Technical Skills in Informatics
   Ability to develop software applications, use advanced tools and platforms for modeling, data analysis, and data visualization
3. Research Skills
   Experience in independently searching for, organizing, and critically evaluating information, as well as in setting up experiments and interpreting their results
4. Communication and Organizational Abilities
   Proficiency in working in teams, taking part in multifaceted projects, and presenting results with clear, well-founded rationale

Career Prospects

Graduates are equipped for professional success in a variety of roles and industries:

• Analysis and Forecasting : Positions in financial institutions, insurance companies, and consulting agencies
• IT and High-Tech Fields : Software development, mathematical software engineering, data analytics, artificial intelligence, network administration, cybersecurity
• Academic and Research Work : Roles in universities, research centers, and laboratories dedicated to innovative technological and scientific projects
• Governmental and Municipal Services : Contribution to digital transformation strategies, large-scale project evaluation, and systems analysis in infrastructure and social programs
• Education : Teaching mathematics and informatics, developing methodologies, and creating specialized training courses

Importance and Future Outlook

In today’s rapidly evolving world, specialists capable of combining mathematical methods with advanced information technologies are in high demand. This need is expected to persist across a wide spectrum of industry, science, and social domains. By integrating comprehensive theoretical and practical learning, the Applied Mathematics and Informatics program offers a robust platform for successful employment, continuous professional growth, and contributions to innovative developments.

In summary, this program shapes graduates who unite mathematical rigor, modern computational tools, and the capacity to implement such knowledge in real-world scenarios. They gain access to a broad range of career opportunities and play a pivotal role in driving progress in science and technology.