Shulgin Georgy

In 2004 he graduated from the Bauman's Moscow State Technical University, specialty systems of orientation, stabilization and navigation.
In 2008 in the Moscow Humanities University he defended the dissertation on economics and management in the industry.
Mr. Shulgin started working in the Federal State Unitary Enterprise «Moscow Factory Electromechanical Equipment» in 2000 as adjuster.
From 2002 he worked in the Federal State Unitary Enterprise «Research Institute Applied Mechanics» as engineer.
Since 2005 he has worked at JSC «Navigation Systems» (NAVIS Inc.) in the position of engineer to the commercial director of a subsidiary of the manufacture and sale of commercial navigation receiver GLONASS/GPS.
Since 2013 he has been working in the Research Institute of Applied Telematics, Ltd as Deputy Head of the Department of precision positioning.


«Navigation and Information Technologies for Business»
«How to use the GLONASS technologies for controlling the displacement of elements of landscape and complex engineering structures within a few millimeters?»
Automated system of object monitoring (ACOM) is a spatially distributed automated hardware and software complex of remote (distant) permanent monitoring of technical state and safety level (TS and SL) of hazardous industrial complex engineering structures (CES) and adjoining landslide landscape (LL).
The system performs automatic collection and processing of information from the measurement and sensor equipment installed on the control objects in the composition, determined by the type of CES and nature of adjoining LL and the list of monitored parameters, determining the degree of TS and SL of object.
As measurement and sensor equipment can be used sensors of different physical principles of operation: linear/angular position sensors, split measurement sensors, tiltmeters, strain gauges, accelerometers, precision navigation equipment GLONASS/GPS, borehole inclinometers, sensors of levels of groundwater in different layers of geolandscapes, sensors of earth pressure on landslide protection structures, etc.
Information is collected, processed and analyzed by object computing device. The object computing device completes the primary processing and analysis of information received from the entire measuring and sensor equipment and determines the integral technical and operational state of the object by comparing the resulting data with predetermined threshold values, as well as stores monitoring information for a predetermined time period. Processed information transmits in real-time mode via wireless/wired communication to telematics server of dispatching complex.
Then data from the telematics server arrive at Manager’s automated workplace. With help of specialized software Manager in real-time mode controls/evaluates/monitors the technical and operational status of monitoring object, receives alarms in case of emergency situations (exceedance the established threshold values) and takes measures in accordance with the recommendations of ACOM decision support subsystem.
Along with the implementation functions of monitoring and control of measuring and sensor equipment operation, automatic parameter measurements and their comparison with the threshold values and the formation of the monitoring information to provide their dispatch service, PC provides control of rates of correlation dependence of different groups of monitoring equipment that improves the reliability of data and control evaluation of integral indicators of TS and UB of CES.
ACOM using allows to reduce the cost of maintenance of operated infrastructure object up to 15% due to:
  • operational monitoring of TS and SL of objects (in real-time mode);
  • transition from a management system based on the cost preventive methods to a system operating the actual state of the monitoring object with taking measures to maintenance a given TS and UB;
  • reasoned preliminary prediction of changes of technical and operational status of objects;
  • reducing the cost of diagnosis of the state of objects, including geographically remote.
Controlled objects:
  • High-rise buildings and structures
  • Automobile/railway bridges, tunnels
  • Trestles, viaducts
  • Landslide protection structures
  • High-voltage power lines and transmission towers
  • Barrages, sluices, docks
  • Petroleum and gas pipelines, storage reservoirs
  • Nuclear, hydro- and thermoelectric power stations
  • Stations, hangars, depots
  • etc.