Наводиться визначення мережевих програмно-апаратних комплексів, які використовуються в задачах моніторингу, контролю та управління якістю інформаційно-вимірювальних систем, як інженерних, конструкторських та проектних рішень, що мають певні етапи життєвого циклу з відповідними показниками якості кожної з агрегатних складових.
The problem of increasing the reliability and competitiveness of products in all sectors of the national economy can be solved only on the basis of obtaining complete and reliable measurement information. This is facilitated by modern measuring instruments (MI), which are complex hardware and software systems. The relevance of the study is due to the fact that modern MI need an effective assessment of their quality at all stages of the life cycle (LC). This requires the development of appropriate assessment methods both at the stage of production and operation of MI.
The expediency of using the process approach to MI LC stages and its advantages over the functional approach were proved. The process approach allows more effective assessment of MI quality indicators at different LC stages and is compatible with the construction of modern quality management systems.
Mathematical modeling was carried out, a set process model of the MI LC was developed and its representation as a process V-model was carried out. This allows studying the interaction of processes of all MI LC stages and performing process quality management at all MI LC stages.
Mathematical modeling was carried out, a set process model of evaluation of quality indicators of MI LC stages was developed and its representation as a process V-model was carried out. This allows evaluating quality indicators of the MI and its components throughout the MI LC.
Recommendations for the use of international standards were formulated, in particular for project management planning, measurement processes, system requirements throughout the MI LC, risk analysis and management at the LC stages. This should help increase efficiency in achieving the planned results at all stages of the MI LC
The article presents the results of the study, which made it possible to define the concept of sensory, sensory-hardware, sensory-functional and sensory-software infrastructures of the cyber-physical system and formulate the principles of a unified approach to the identification of the current state of a cyber-physical system based on its sensory infrastructure. The set-theoretical model of formation of the information state of the cyber-physical system based on the model of its sensory infrastructure is proposed, the decomposition of which enables to determine the current state of its hardware, functional and programmatic components.
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