PRINCIPLES OF INFORMATION TECHNOLOGY FOR SOLVING INTERDISCIPLINARY PROBLEMS OF TECHNOGENIC SAFETY PROVISION ON THE BASIS OF SELF-ORGANIZATION
Alexander F. Berman, Olga A. Nikolaychuk, Alexander Yu. Yurin, Alexander I. Pavlov
Matrosov Institute for System Dynamics and Control Theory of Siberian Branch of Russian Academy of Sciences (ISDCT SB RAS
The problem of substantiating the properties of complex technical systems has an interdisciplinary character because of it requires the application of knowledge of all general technical and special engineering disciplines, some branches of physics, chemistry and psychology, as well as methods and means for mathematical modeling and information technologies. One of the promising methods for creating relevant models for this problem is the use of the principles of self-organization reflecting both the actions of a team of researchers, and using appropriate variables and parameters characterizing the dynamics of the state of an object. The paper proposes to describe the basic principles of an information technology for creating a self-organizing safety research system, where decision making (modeling) is based on a self-organizing algorithm that implements the interaction of “solvers” of disciplinary and interdisciplinary tasks of different competencies and specializations.
interdisciplinary task, ontology, components, model-driven approach, coordination of expert knowledge, group decision making, self-organization