For highly reliable radio information systems the failures are quite rare phenomena leading to critical decrease in functional characteristics. At the same time, failure distribution may be a subject to rather complex laws, which together with a lack of real data makes it difficult to evaluate the reliability characteristics of the product. Achieving high accuracy of reliability characteristics evaluation is possible due to constant updating the parameters of the radio information system reliability model based on experimental data on the technical condition of the product components starting from the stage of its development. In this case, it is possible to determine the reliability characteristics based on current data on the performance of radio information system components based on the empirical failure distribution function. In this article we propose an algorithm for transferring to an empirical distribution and counting the characteristics (mean time between failures) of radio information system reliability based on it.
The article proposes a method for evaluating the radio engineering system functional characteristics based on the use of continuum processors that combine the logical and computational capabilities of state continuous parametric assessment of a functional system. The hardware implementation of the knowledge processing system is created on the basis of continuum processors. It is integrated into the means of functional control and maintenance a state of preparedness of complex electronic equipment.
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