Visualization of Technical Status of Complex Objects using Computational Models
Abstract
Introduction: One of the problems in evaluating technical status of complex organizational and technical objects is the absence of a single methodology for the evaluation and status control. A part of solving this problem could be the development of a unified model to represent the knowledge about the evaluated object and its visual representation on a mnemonic scheme. Purpose: Unifying the representation of knowledge regarding the evaluated object and its visual representation in a single model. Results: An adapted computational model is developed which describes diagrams. On the base of this model, we proposed a way to define mnemonic schemes used during an object technical status evaluation. A software prototype is implemented, generating visual representation of mnemonic schemes by their computational models. It has been demonstrated that the adapted computational model can describe both the predicted behavior of an object and the mnemonic scheme which represents it during the technical status evaluation. Practical relevance: The developed software prototype based on the adapted computational model can facilitate the development of visual tools used for the evaluation of technical status of complex organizational and technical objects.Published
2017-12-20
How to Cite
Stepanov, P., Okhtilev, M., & Sokolov, B. (2017). Visualization of Technical Status of Complex Objects using Computational Models. Information and Control Systems, (6), 132-135. https://doi.org/10.15217/issn1684-8853.2017.6.132
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Section
Brief scientific reports