4. The improvement of existing risk control concept

The purposed approach to improve existing risk control concept includes (see Figure 8) [11–17]:


5. About some problems of industrial safety for coal branch

Figure 9. System of two different complex systems (serial combination) for modeling integrated system.

industrial safety of critical infrastructure safety (CIS).

Figure 10. The SUEK value chain includes "smart" systems everywhere.

5.1. Probabilistic analysis of the remote monitoring system possibilities

SUEK use "smart" systems [11, 14]. Below are the aspects researched:

to the set normative in real time.

As an example of effectively solving the problems of industrial safety, we consider an experience of the joint-stock company "Siberian Coal Energy Company (SUEK)" (see www.suek. com). SUEK is one of the world's largest coal companies with production assets in Russia and a global trading network. SUEK delivers long-term value to shareholders at every stage of the value chain—mining, processing, transportation, and shipment—through port facilities, sales, and distribution (Figure 10). This value chain includes different SoS. In practice many SoS of

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• Probabilistic analysis of the remote monitoring system (RMS) possibilities for increasing

• Estimating in real time the mean residual time before the next parameter abnormalities considering the results of the control of equipment and technological process conformity

For coal branch the developments of mine, buildings, and constructions should be equipped by a complex of systems and means that provide the organization and implementation of coal

For example, system, combined from complex interested system and "smart" system (also it may be SoS), can be analyzed by the formula (5) and probabilistic models described above (see Figure 9). The correct operation of this system of system during the given period means during the given period of prediction both the first and the second complex systems should operate correctly according their destinations. That is, integrated system is in the state "Integrity (correct operation)" if "AND" the interested system left and "AND" the "smart" system right are in the state "Integrity (correct operation)."

Thus, the proposed improved that risk control concept can be useful to perform effectively functions: risk prediction; rationale of quantitative system requirements to hardware, software, users, staff, and technologies; requirement analysis; estimation of project engineering decisions and possible danger; detection of bottlenecks; investigation of problems concerning potential threats to operation of complex systems; validation of system operation quality; rational optimization of system parameters; and rationale of plans, projects, and directions for effective system utilization, improvement, and development. The expected pragmatic effect is as follows: it is possible to provide essential system quality and safety rise and/or avoid wasted expenses in system life cycle bases on the rational application of improved concept.

Figure 8. The purposed approach to improve existing risk control concept.

Probabilistic Methods and Technologies of Risk Prediction and Rationale of Preventive Measures by Using… http://dx.doi.org/10.5772/intechopen.75109 35

Figure 9. System of two different complex systems (serial combination) for modeling integrated system.
