Development of a Universal Algorithm for Determining the Spatiо-Temporal State of Man-Made Systems Based on Time Series of Geodetic Measurements

E. F. Golub, Т. Y. Bugakova
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Abstract

The complexity of modern man-made systems (engineering structures) is associated with issues of safety of their operation. The effects of endogenous and exogenous factors lead to a change in the state of systems. In this regard, there is a need to improve methods and means of determining the condition of structures to ensure the safety of their operation. The article discusses the methods of geodetic measurements of the spatio-temporal states of engineering structures, provides an analysis of data processing software, and draws conclusions about the advantages and disadvantages of modern software. Based on the research, a complex algorithm that allows unifying the procedure for determining the spatial and temporal state of engineering structures of different shapes and designs, taking into account the individual selection of mathematical algorithms for assessing and timely warning of emergency situations is offered. The conceptual scheme of the complex algorithm includes the procedure of actions and a set of mathematical models, which makes it possible to determine the spatial and temporal state of engineering structures of any design for a wide range of purposes.
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基于大地测量时间序列确定人造系统时空状态的通用算法的发展
现代人造系统(工程结构)的复杂性与其运行的安全性问题有关。内源性和外源性因素的作用导致系统状态的变化。在这方面,有必要改进确定结构状况的方法和手段,以确保其操作的安全。本文讨论了工程结构时空状态的大地测量方法,对数据处理软件进行了分析,总结了现代软件的优缺点。在此基础上,提出了一种复杂的算法,可以统一确定不同形状和设计的工程结构的时空状态,同时考虑到紧急情况评估和及时预警的数学算法的个体选择。复杂算法的概念方案包括动作过程和一组数学模型,这使得确定任何设计的工程结构的时空状态成为可能,用于广泛的目的。
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