Измерение, мониторинг, управление, контроль (Oct 2023)

A MODEL FOR CONTROLLING THE STATE OF THE OPTOELECTRONIC PATH OF INFORMATION-MEASURING AND CONTROL SYSTEMS

  • Aleksandr V. Poltavsky,
  • Nikolai A. Kuzin,
  • Nikolay K. Yurkov

DOI
https://doi.org/10.21685/2307-5538-2023-3-1
Journal volume & issue
no. 3

Abstract

Read online

Background. The purpose of the work is to investigate models and one of the approaches for monitoring parameters at the early stages of testing with the construction of algorithms for the control system of photo and video cameras of optoelectronic devices in order to carry out the tasks of remote monitoring of objects. Materials and methods. Methods, models and algorithms for information modeling and research of tasks of these systems, as well as control and testing are developed, as a rule, on the basis of fundamental generally accepted approaches, they are still the primary link of justification in tasks for their preliminary analysis, including in tasks for managing various cameras of detection, tracking and identification of an object. Results. Information models have been developed for the IIUS and for the electronic path – the communication channel and control of the cameras of the OEP devices in the general telecommunication network of the information management system (IUS), operating algorithms based on the procedures for finding optimal control of a remote surveillance camera and video camera have been created. An integrated approach and algorithms for the implementation of the task of searching for control and control with the assessment of preliminary tests in relation to photo/video surveillance subsystems of the ECO as part of the IIUS are proposed. Conclusion. An approach has been developed to search and build an optimal control algorithm in the links of the ECO with a model for assessing possible potential risks of information loss, and a new information technology has been created in the tasks of preliminary measurements and tests of objects of systems for video surveillance of promising and already existing ECO objects based on classical optimal control methods.

Keywords