UA
EN
Objective: to study the technology of integration of satellite radio navigation system, wireless communication, GIS, Internet technologies and ways to build a justification for the structure of micro-miniature equipment for remote detection and display of the location of moving biological objects and to create a prototype of the VIP-control system.
The main results of the work.
The technology of integration of the satellite radio navigation system, wireless communication, GIS and the Internet, the method of building the ‘VIP-control’ system, the requirements for the structure and algorithmic support of the system’s functioning were developed and substantiated, taking into account that the general structure of the system for monitoring moving objects should be universal and allow the use of optimal technologies for monitoring various biological objects with minor modifications.
A prototype of the ‘Vip-control’ system with the appropriate algorithmic and software was created and laboratory and field tests were conducted.
The developed system allows for operational control over the movement of persons in the performance of particularly important tasks in order to prevent terrorist attacks directed against them, as well as to control the movement of persons of different segments of the population (schoolchildren, the elderly, the sick, etc.) requiring remote monitoring and control.
The practical significance of the results of the work is that they form the basis for the development of a technological procedure for studying information flows in the VIP-control system to ensure monitoring. At the same time, the expected social effect is to increase the reliability of the monitoring process, and, as a result, to increase the security of particularly important persons, as well as persons holding responsible government positions, heads of large corporations and their families, persons performing responsible assignments at certain times, as well as groups of tourists and rescuers in difficult tourist routes.