A NEW APPROACH TO ASSESSING THE OPERATIONAL SAFETY OF COMPOSITE MATERIALS AND PARTS OF COMPLEX STRUCTURES BASED ON ARTIFICIAL INTELLIGENCE METHODS AS A PART OF NEURAL NETWORKS AND DEEP RESULTS OF MULTI-CRITERIA COMPLEX NON-DESTRUCTIVE TESTING-Reference-Cited by-同舟云学术

A NEW APPROACH TO ASSESSING THE OPERATIONAL SAFETY OF COMPOSITE MATERIALS AND PARTS OF COMPLEX STRUCTURES BASED ON ARTIFICIAL INTELLIGENCE METHODS AS A PART OF NEURAL NETWORKS AND DEEP RESULTS OF MULTI-CRITERIA COMPLEX NON-DESTRUCTIVE TESTING

Published:2020-07 Issue:265 Volume: Page:18-27
ISSN:0201-7032
Container-title:Kontrol'. Diagnostika
language:ru
Short-container-title:td

Author:

Akimov D. A.,Kleymenov A. D.,Kozelskaya S. O.,Budadin O. N.

Abstract

The article proposes a new approach to assessing the operational safety of materials and parts of complex structures based on artificial intelligence methods based on artificial neural networks and multi-criteria complex non-destructive testing, and special mathematical and algorithmic support for systems for evaluating operational safety and predicting residual life under external influences. A method of morphological analysis of the procedures for using measurement tools for heterogeneous information with different a priori information, both about the type of characteristics and the distribution of errors in the input and output signals, has been developed. The classification of problems of measuring parameters for the integration of heterogeneous information is proposed. A macromodel of error is obtained that can be used for research purposes to minimize errors in the developed equipment or for the purpose of correcting errors during operation. A classification of methods for measuring heterogeneous information from the standpoint of probability distribution theory is proposed. Experimental testing of developed algorithms tailored aggregation of information non-destructive testing and adaptation to poorly formalized parameters, which confirmed the effectiveness of the developed methods and algorithms for assessment of structures and resource forecasting their operational reliability was carried out.

Publisher

Izdatel'skii dom Spektr, LLC

Subject

General Medicine

Reference20 articles.

1. Barynin V. A., Budadin O. N., Kul'kov A. A. (2013). Modern technologies of non-destructive testing of structures made of polymer composite materials. Moscow: ID «Spektr». [in Russian language]

2. Klyuev V. V., Budadin O. N., Abramova E. V. et al. (2017). Thermal control of composite structures under conditions of power and shock loading. Moscow: ID «Spektr». [in Russian language] ISBN 978-5-4442-0138-1.

3. Nosov V. V. (2014). Automated resource estimation of structural materials samples based on a micromechanical model of time dependences of acoustic emission parameters. Defektoskopiya, (12), pp. 24 – 35. [in Russian language]

4. Nosov V. V. (2016). Principles of optimization of technologies of acoustic emission monitoring of the strength of industrial facilities. Defektoskopiya, (7), pp. 52 – 67. [in Russian language]

5. Ohtilev M. Yu., Sokolov B. V., Yusupov R. M. (2006). Intelligent technologies for monitoring and controlling the structural dynamics of complex technical objects. Moscow: Nauka. [in Russian language]