Abstract
The paper considers the problem of modeling the processing of geodynamic information in a reconfigurable information-communication environment of geodynamic monitoring based on an adaptive queuing system. It was established that due to the complexity and diversity of geodynamic information, the number of geodynamic control points is expanding and the number of controlled parameters, the number of controlled objects of natural-technical systems (NTS) are increasing. This leads to an increase in the overall load on the info-communication monitoring environment, an increase in the processing time and the response time of the NTS geodynamic stability control system to negative changes. This leads to the need for adaptive optimization of the info-communication environment of geodynamic monitoring. The model of a composite stream describing the change in the nature of the tasks performed by geodynamic monitoring was determined, approaches to reconfiguration management based on minimization of the loss functional were proposed. The constructed model of the process of functioning and the analytical dependencies obtained for it allow analyzing the process of processing geodynamic information in info-communication environments to optimize the mechanisms of their functioning.
Highlights
At present, geotechnical and geodynamic monitoring systems are used to solve problems of protecting life-supporting and man-made objects from possible catastrophic scenarios, as well as monitoring the bearing capacity of soils during the life cycle of objects and natural-technical systems (NTS) [1,2,3]
Adaptation of the info-communication environment of the geodynamic monitoring system solves the problems of fine tuning the system for controlled objects and optimizing the performance of geodynamic information processing
The paper was proposed an approach to modeling and analyzing the processing of geodynamic information in a reconfigurable info-communication environment based on a controlled queuing system
Summary
Geotechnical and geodynamic monitoring systems are used to solve problems of protecting life-supporting and man-made objects from possible catastrophic scenarios, as well as monitoring the bearing capacity of soils during the life cycle of objects and natural-technical systems (NTS) [1,2,3] It allows an assessment of geomechanical changes in the geological environment, as well as technological control of buildings and structures in order to form a predictive estimate of the possibility of man-made disasters. ISSN: 2302-9285 it is necessary to significantly reduce the information processing time to form an operational response to critical changes of the object of study It is the improvement of quality indicators , reduction of research time and, increase in the efficiency of geodynamic control is the main goal of the development and application of automated systems of geodynamic research [4]. In the existing models of processing applications in info -communication systems this is not fully taken into account
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