Specialty: System analysis
Field of knowledge: Information technologies
Educational program System analysis of maritime transport infrastructure
Forms of study: full-time
Term of study: 4 years
The key to success in business is the ability to gather, organize, and interpret information. Systems analysis and design is a proven methodology that helps both large and small businesses reap the rewards of utilizing information to its full capacity. Systems analysis originated in the era of computer technology in business and other fields. The success of its application in solving complex problems is largely determined by the capabilities of modern information technology.
How to effectively solve problems in the era of the dominance of information technology? What are the latest achievements of science and technology to choose? How to develop computer data processing systems and teach them how to work? Who will solve the problems of analyzing the activities of the enterprise, introduce modern technologies, process information and propose solutions?
The answer is a system analyst.
Organizations of any industry, as never before, rely on system analysts to evaluate how internal and external factors affect performance, what risks exist and how to avoid them.
A systems analyst is an IT professional who works on a high level in an organization to ensure that systems, infrastructures and computer systems are functioning as effectively and efficiently as possible. System analysts carry the responsibilities of researching problems, finding solutions, recommending courses of actions and coordinating with stakeholders in order to meet specified requirements. They study the current system, procedures and business processes of a company and create action plans based on the requirements set.
If you are interested in these questions - choose "System Analysis".
The educational program "Systems Analysis" contains a full cycle of disciplines, which teach information technology methods, modern programming languages, Web technologies, databases, artificial intelligence technologies, general methods of analysis, modeling and optimization of complex systems, as well as big data and business technologies. analysis.
At the same time, at Odessa National Maritime University, students have the opportunity to listen to a series of special disciplines aimed at learning about transport technologies and the use of IT technologies in the management, modeling and optimization of transport systems.
We teach students to play a central role in solving maritime infrastructure problems.
Students can focus on infrastructure planning and learn how infrastructure planning is directly related to economic development. They can also focus on transport planning and learn how to simulate environmental protection measures, analyze and transform them into traffic issues in infrastructure networks or how to model the choice of people, and also analyze the impact of transport systems on destination choice, form of transport, route and time of departure.
Students can also focus on (dynamic) traffic management and learn how to manage traffic flows, for example, using dynamic traffic management systems or how to mathematically describe traffic movement.
Graduates with a bachelor's degree in Systems Analysis can work as programmers, IT project managers, systems and business analysts in companies engaged in the development and implementation of IT technologies, in transport and logistics companies, analytical departments of companies and institutions of various profiles.
As the cloud computing industry grows, the demand for qualified systems analysts also increases.
Agile systems, blockchain technology, progressive web apps, new interface designs — these and other advances represent software trends of tomorrow. Keeping up with the changes in how technology can help businesses is a lifelong study. However, However, young and energetic people interested in becoming a systems analyst can begin their educational journey today at Odessa National Maritime University.
- transport infrastructure as a socio-technical system
- system analysis
- algorithmization and programming
- programming languages С#, Java, Python
- theory of algorithms
- transport infrastructure
- web technologies and web design
- object oriented programming
- numerical methods
- data mining
- optimization methods and models
- system modeling
- organization of databases and knowledge
- decision theory
- business analysis techniques
- theory of transport infrastructure management
- fuzzy logic
- information and analytical systems software
- economics, business and startups
- cloud computing technology
- big data technology
- artificial intelligence and expert systems in transport