SMART situational control system

SMART platform is designed for integrated monitoring and diagnostics, as well as for solving tasks of predictive analytics and risk management based on the latest generation machine algorithms. The system is a unified software and hardware solution that identifies critical factors and minimizes possible losses.

SMART end solution options

• Situation-Analytical Center (SAC)
  Situational-analytical center for management and control of distributed objects is designed for collection, analysis and visualization of data coming from existing enterprise systems, for intelligent processing of this data, generation of events based on analytical algorithms and machine learning, automation of business processes and reporting. 
  
  Purpose
  
  

  1. Use of a single technological platform at all levels of operational management
  2. Application of a knowledge base for risk assessment, event forecasting and data analysis
  3. Improving the efficiency of forecasting the occurrence of emergency situations: place, time and probability
  4. Automated calculation of possible restoration time of facilities and infrastructure operation
  5. Intelligent selection of possible accident scenarios based on statistical and analytical data
  6. Risk assessment of unfavorable natural phenomena
  7. Assessment of consequences and development of accident elimination methods
  8. Accumulation of statistics and improvement of forecast quality, including with the help of predictive analysis methods.

  
  Implementation results
  
  

  1. Optimization of the process of operational-technological and situational management in changing conditions on the basis of complex analysis
  2. Improvement of procedures for prevention and liquidation of consequences of technological disturbances (accidents) with the use of predictive analysis methods
  3. Exchange of operational information in digital format with automatic preparation of analytical reports
  4. Reducing the scale of accident elimination costs 
  5. Reduction in the number of process failures 
  6. Improvement of performance indicators (KPIs)

• Digital Dynamic Enterprise Passport
  Digital Dynamic Enterprise Passport is a software solution for collecting and analytical processing of information about the state of the enterprise infrastructure in real time with the ability to promptly inform the operation services about emergencies and other abnormal situations.
  
  Purpose
  
  

  1. Digitalization of all supporting systems of the enterprise, including material assets in the form of buildings, equipment, raw materials.
  2. Operation of industrial facilities in predictive mode
  3. Use of geoinformation technologies for visualization of the digital passport of the enterprise and solution of analytical tasks within the framework of enterprise management (2D/3D)
  4.  Formation of the system parameters archive for maintenance planning and analysis of the causes of abnormal situations
  5. Operational assessment of the situation and forecast of accident consequences
  6. Timely accident detection and complex response
  7. Timely notification of production personnel
  8. Information support of decision-making on accident consequences elimination

  
  Implementation results
  
  Comprehensive information support for the activities of operational services of the enterprise, chief engineer and safety departments (operational assessment of the situation at the enterprise, timely detection of accidents and integrated response, etc.)

• Geotechnical monitoring system
  An information and diagnostic system that provides:
  
  

  1. Visualization and storage of information of monitoring parameters of monitored objects in real time mode
  2. Maintenance of digital passports of monitoring objects
  3. Display of measuring instruments on the mnemonic scheme of the monitoring object with the display of measured values
  4. Color indication of measuring instruments on the mnemonic scheme and interactive map depending on the values of monitored parameters and diagnostic information
  5. Operational notification in case of abnormal situations
  6. Display of controlled buildings and constructions with corresponding color indication on the interactive map
  7. Construction of trends of changes in controlled parameters on the basis of accumulated measurement data
  8. Generation of individual reports on the condition of the monitored objects
  9. Timely issuance of instructions for works to prevent emergencies, as well as control of their fulfillment
  10. Planning of inspections of buildings and structures with tools for entering and storing inspection results, including using a mobile workstation