3D models of switching patterns of switching plants on elements by Berezovsky.
DOI:
https://doi.org/10.15276/opu.2.55.2018.08Keywords:
Berezovsky switching element, 3D switching pattern by Berezovsky elements, switching plantAbstract
A feature of modern switching structures, systems, networks (SSSN=3SN) is a two-dimensional (2D) topology that is used in many commercial systems. Traditional SSSN is regular, but static – do not correspond to the rapid dynamics of the development of modern IT business; device management – distributed and too complex, not effective. Means of building modern networks are proprietary, closed for changes on the part of network owners and the scientific community. The new paradigm of building the 3SN is a software-configurable topology in which the level of control is separated from the data transfer devices and implemented programmatically, more simply and accordingly cheaper. In the article, a persuasive intellectual – heuristic solution is considered – creating a single universal tool for solving the problem of synthesizing new 2D and, especially, 3D topologies of SSSN in known spaces using elements of cognitive graphics-image information. The concept of switching pattern is introduced: at the physical level, the patented by Berezovsky switching element (SEB) and its conventional graphic designation-the second-order graphic line-is an ellipse. The construction of 3D reconfigurable and programmable switching structures, systems, networks (P3SN) for parallel structures of information and telecommunication systems involves the search for and development of new spatial architectural and topological solutions and new 3D conditional graphic symbols for the generating switching elements. 3D models give the researcher the opportunity to create his own polysemy material as an innovative database of interactive graphics to form a special visual knowledge base and to include the person / developer / operator in the process of solving a real scientific problem in an interactive mode. The proposed approach will help: create an environment for the automation of design and control; ensure the visibility of all traffic by the controller and request directly defined requirements for the P3SN and other functions for future applications
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