Controlling the operation of the intelligent generator and energy translator integrated from space and planetary objects as the elements of a power plants in space (in orbit)

E P Grabchak,S I Bortalevich,E L Loginov,A I Soldatov

doi:10.1088/1742-6596/1327/1/012040

E P Grabchak, S I Bortalevich + Show 2 more

Open Access

https://doi.org/10.1088/1742-6596/1327/1/012040

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Abstract

The author analyzes problems of using artificial intelligence based of monitoring systems and management, as well as the opportunities of operating performance parameters of networks transporting energy resources within a quasi-integrated electric power super-system of the gigawatt level, the space part of which consists of distributed satellite formations as quasi-integrated segments of orbital power stations. In this case, you must consider the increasing presence of intelligent control devices (e.g., cyber-physical device conversion and switching energy, intelligent management system, open service platform, etc.). The author offers to predict the dynamic characteristics of the integrated quasi-integrated electric power super-system when analyzing the interrelations of metastable states in the processes of obtaining energy from objects of space power generation in the microwave, laser or other mode and converting it into electric power by ground installations.

Highlights

In the last two decades, a new effective tool – the theory of complex networks-has been developed to study the problems of functioning of complex systems
Network nodes are considered as elements of these complex network systems, and the links between these nodes are considered as interaction between elements [1]
The test results should provide an opportunity to increase the survivability of the systems of transportation of energy resources in the conditions of probable critically fast cascade development of the effect of damage from the avalanche - like distribution of overload that occurred in one of the nodes of this network and an acute shortage of resources to maintain the normal operation of the object

Summary

Introduction

In the last two decades, a new effective tool – the theory of complex networks-has been developed to study the problems of functioning of complex systems. Network nodes are considered as elements of these complex network systems, and the links between these nodes are considered as interaction between elements [1]. Projects of the removal of primary sources of energy generation from the Earth’s surface into outer space make it extremely important to integrate space and ground-based power generation and transmission systems within a quasi-integrated electric power super-system of a gigawatt level, the space part of which consists of distributed satellite formations as quasi-integrated orbital segments power plants [2,3,4,5].

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