Azerbaijan National Academy of Sciences

1.A mathematical methodology for identifying and classifying emergency situations by cause-effect and spatial-temporal characteristics has been developed for the first time, a description of an emergency situation as a control object in the risk zone has been given;

2.Mathematical models, methods and new information technologies for solving problems of adaptive management in emergency situations have been developed;

3.The technology of creating a database for certification of potentially hazardous objects has been developed;

4.A new methodology has been developed for identifying cause-and-effect relationships between random factors that caused an accident, assessing the emergence of accident risks and modeling processes with instantaneous changes and thereby maximizing the safety of environmentally hazardous facilities;

5.Algorithms for solving forecasting problems for accident monitoring have been developed;

6.Combination models of selective and hybrid types for forecasting by the nearest-neighbor method by preliminary clustering of time series have been developed;

7.Mathematical models of the spread of pollutants in the air and water environment have been developed;

8.Displaying the processes of development of an emergency situation in the form of directional multigraph, reflecting the alternatives of the manifestation of destructive effects and the implementation of protective actions;

9.Expression of the main control problems in emergency situations and their decomposition in the form of a hierarchical system of operational control loops;

10.A mathematical model of water resources management under uncertainty;

11.A mathematical model for building an ecological model of a gas hazardous enterprise;

12.An analytical formula for calculating the speed and maximum distance of the flight of combustible particles has been presented;

13.A robust method for solving the problem of minimizing the risks of anthropogenic impact has been proposed;

14.A numerical modeling method for the simulation of the air flow movement in the underground metro facilities in the event of a fire has been developed;

15.A mathematical model of ecological processes in war zones has been developed.