The structure of dual-channel fail-safe system with reconfiguration are developed. Approach to modeling the operation of fault-safe systems designed by means of an integrated tool environment based on Matlab Simulink. The software package ReliabMod, based on the use of the diffusion distribution of operating time to failure (DN-distribution) components are developed for statistical reliability modeling of systems.
A methodology of creationand study living dependable systems using themin critical infrastructureswas developed.
A conception of electronic dependable systemof automatic crossing signals (ACS-EG)ofnew generation with theoptimization after closing the crossroaddepending on the speed of the approaching train, objective control crossroad zone, the possibility to signalingaboutemployment at the railroad crossing railway traffic light and in the driver's cabin with providing an emergency stop train before crossingif it necessarywas developed.
Methods, technologies and software modelingofestimation and forecasting parameters of dependability(fault tolerance, reliability, security and survivability) of control systems basedonthe process simulation models oftheir operations and probabilistic and physical failure models.
Tools for distributed simulation modeling of dependable computer control systems of critical usemanagement were developed. Innovative solutions of computer automation systems that promote the efficiency and security of main and industrial railway transport wereproposed.
The methods of creating survivable intelligent computer systems andrisk-based approach to the evaluation of the safety of critical systems and infrastructureswere developed. Complex of CASE-items of tools designingof dependablecomputer systems and preliminary projectsof highly-reliable automation systems onrail transportwere developed.
There was developed fail-safe feature strategy as an alternative of full fault tolerance of dependability in the design of computer systems, the methods proved safety of computer systems and recommendations for improving their functional safety and survivability. The new methods of evaluation of experimental equipment reliability under conditions of low statistical failures were developed. In 2016-2017 two State Standards of Ukraine were developed and implemented: DSTU 8647 “The reliability of equipment. Estimation and prediction of reliability based on the results of tests and (or) operation in conditions of low failure statistics” and DSTU 8646 “Reliability of technology. Estimation and forecasting of the residual resource (service life) of technical systems”. On the basis of new reliability technology - probabilistic-physical methods a new method of estimation and prediction of reliability indices (failures, durability and other indicators of reliability) of technical systems based on the results of tests and / or operation in the conditions of a small number of failures has been developed. A typical Safety Assurance Program (SAP) of the systems was developed, a revision of the level of safety and survivability of the automatic emergencycontrolsystemsof HPP on the example of the accident at the Sayano-Shushenskaya HPP; it was carried out the classification of the causes of the accident, the suggestions to increase the level of the guarantee capacity of the control and recommendations on increasing the survivability of spa at modern hydroelectric plants and a comprehensive range of methods for controlling (calculating) risks were made. With respect to the further development of the methodology and the theory of construction of information-control reliable computer systems (CS) of a high level of reliability and security for critical technologies and infrastructures developed attributive model of the reliability of the CS, on the basis of which it becomes possible to carry out its parametrization (quantitative assessment of attributes and metric), calculating the quantitative assessment of the level of assurance of the CS, comparing the CS to the level of guaranteeability. Based on the probabilistic-physical theory of reliability, developed at the institute, in accordance with the Program of work on national standardization of Ukraine and the long-term standardization plan of the Technical Committee of Ukraine for the implementation of reliability standards, developed 2 draft standards: DSTU (Ukrainian national standardization system)“Reliability of technology. Calculation of the volume of spare parts inZIP”, DSTU (Ukrainian national standardization system) “Reliability of equipment. Calculation of reliability of standard details of machines”. Theoretical results of researches are received and practically applied methods of construction of guaranteed computer means and systems which have interbranch orientation and can be implemented at development and design of competitive domestic information and control computer systems concerning critical technologies and infrastructures are confirmed. Thanks to the capabilities of warranty systems, critical applications make it possible to prevent man-made accidents and minimize the loss of large amounts of property and other valuables.
Thanks to the obtained attribute model and on the basis of the metric approach, original methods of quantitative assessment of the level of guarantee of computer systems (CS) were developedfor the first time. On the basis of quasi-bridge structures, an increase in the general level of probability of failure-free operation of the CSwas achieved, a special cluster structure was developed, which allows to significantly increase the survivability of various CSs. The obtained research results have a cross-sectoral focus and can be implemented in the development and design of competitive domestic information and control centers for critical technologies and infrastructures in the field of transport and energy. An attributive warranty model (AWM) of software was created. For the first time, thanks to the obtained attributive model and on the basis of the metric approach, there were developed original methods of a quantitative assessment of the level of software warranty, methods of assessing the performance levels of metrics and attributes of the software AWM, analytical complex assessment of the software warranty level and methods of its comparative analysis on the basis of analytical description of AWM. Applied methods for calculating the residual resource and service life of mechanical objects, including the objects of railway transport, were developed. For the first time, the tasks were solved on the basis of new probabilistic and physical failure models – DN and DM-distributions. The results of theoretical calculations were proved by the results of experimental application and can be recommended to be included in the regulatory documents regarding railway transport. The theoretical foundations of reliability assessment were developed within the probabilistic-physical approach to the theory of reliability based on a new mathematical apparatus that had no analogues in the world. This approach is based on the use of two-parameter reliability models – DN and DM distributions which are the most adequate reliability models leading to more accurate quantitative estimates. For the first time in world practice, these models let mathematically correctly obtain such an important indicator of reliability as the value of the residual resource (service life) of various objects. New methods and techniques for assessing the residual resource of critical objects and establishing a regulated term of further operation of worn equipment with an acceptable risk value based on the use of the most adequate probabilistic and physical failure models (diffusion distributions) were developed. A concept for a risk-oriented approach to managing the safety of high-hazard facilities and critical infrastructures (CI) was developed, along with a methodology for risk assessment using mathematical modeling methods eliminating subjective factors and allowing for the application of various best international practice methods (ISO 31010:2019) depending on the category and type of CI objects. New methods and techniques for assessing the residual resource of critical use objects and establishing the regulated period for the further operation of worn-out equipment with an acceptable risk value based on the use of the most adequate probabilistic-physical failure models (diffusion distributions) were developed.