TIME DESCRIPTION OF ECONOMIC REFORMS

An integral part of Industry 4.0 is the Internet of Things, or rather the Industrial Internet of Things (IoT), which ensures the interaction of autonomous technical devices and their control by humans. Built-in sensors and systems for processing large amounts of information (big data) received from them are widely used to implement control. The purpose of the article is to develop a paradigm for the global sustainable development of complex systems in modern conditions, as well as to study new paradigms for the global sustainable development of complex systems. The object of the study is the synthesis of integrated models taking into account humanitarian and cognitive variables for assessing sustainable and safe development, the creation of methodological research tools, using which it was possible to determine objective global values of people independent of consciousness and will and the global goal of human development. The hypothesis of the study is that based on the use of information and innovative technologies, integrated stochastic models of objects and processes suitable for conditions of systemic crises have been developed and studied. Methods used in the study: mathematical methods, models and information and innovative technologies for nonlinear dynamics of ecological - economic and socio - humanitarian systems, integrated stochastic models of objects and processes suitable for conditions of systemic crises have been developed and investigated. Presentation of the main material. An ordered hierarchical structure turns into a chaotic conglomerate of the simplest structures (system destruction, collapse, catastrophe). Integrated stochastic models of objects and processes suitable for conditions of systemic crises have been developed and investigated. Social and economic interaction tools are proposed as factors for research in the fields of neuroeconomics, processes and tools of global development of complex systems, and others. Originality and practical significance of the results obtained - an approach to assessing the level of sustainable development of complex systems based on nine factors, including cognitive, innovative, intellectual, and others, has been proposed for the first time. Conclusions of the study. The results of the authors' previous works in solving the problem of assessing the sustainable development of a technogenic production system taking into account nine factors in the conditions of an innovative economy are summarized and developed, and global development tools and others are proposed

stainable development, nooeconomics, noo-conditionality, noo-modeling, technological structure

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