Abstract
Introduction. For students to successfully master the necessary knowledge, skills and professional competencies, and their implementation in future practical activities, a flexible system of effective training (study) of the relevant training modules is needed based on the development of their special integrated computer knowledge base and database, using ideas and methods of discrete mathematics and artificial intelligence.
Methods. Structural and functional schemes are proposed: development of a system for integrating elements of disciplines - combinatorial analysis, graph theory, mathematical modeling in the implementation of problems and tasks of the components of the field of professional activity, objects of professional activity, types of professional activity of the bachelor of "Biomedical Engineering"; compiling a knowledge base and a database of a system for integrating these disciplines in designing and solving problems of biomedical engineering, medical and biological sciences for healthcare.
Results. In the areas of biomedical engineering research, examples of already implemented integrations with the disciplines of combinatorial analysis, graph theory, mathematical modeling (from literary and Internet sources and our own developments) are compiled. For diagnostics, monitoring, treatment methods, examples of their already implemented integrations with the disciplines of combinatorial analysis, graph theory, mathematical modeling (from literary and Internet sources and own developments) are also compiled. As a result, a database of integration systems is compiled, on the basis of which students will be able to get an idea about existing integration systems. When considering a particular problem or task of biomedical engineering, an appropriate integration system will first be determined from the existing database of integration systems. In the absence of a suitable integration system for the considered problem or task of biomedical engineering, on the basis of a research project, together with the relevant specialists, an appropriate new integration system will be compiled.
Conclusion. Note that all of the above will form the basis: firstly, the creation of a general system model for solving a number of scientific research or practical problems; secondly, to optimize the decision-making process; thirdly, to evaluate the quality of such a solution, and so on. Based on all of the above, it is planned to create a special system for integrating disciplines - combinatorial analysis, graph theory, mathematical modeling in the formation of competencies of the bachelor of "Biomedical Engineering".