In order to ensure the suitability of measurement methods and measuring equipment of cyber-physical systems based on the interacting networks of physical and computing components, measuring-management subsystems are implemented. Realization of operational-checking methods of parameters of measurement channels of scattered cyber-physical systems on the basis of traditional approaches is practically impossible due to the necessity of dismantling and re-installation of their measuring units. In addition, no metrological checks of connecting lines b
It is noted that for the efficiency enhancement of solar energy converters it becomes necessary to measure exactly the temperature and temperature difference. The requirements of normative documents exceed the metrological parameters of the standardized temperature sensors. Therefore, the challenge of thermometers and temperature difference meters accuracies can be solved by errors correction within simple and practically suitable procedure.
Cyber-physical systems as dispersed systems based on interacting networks of physical and computing components provide new functionalities for improving the quality of measurement processes. It is proposed to carry out automated operational setup of metrological parameters of these systems measuring channels during operation basing on the code-controlled measures-imitators.