Design of intelligent system for diagnostics of technical state of building objects
DOI:
https://doi.org/10.15587/2312-8372.2015.37506Keywords:
acoustic emission, diagnostics, intelligent system, fuzzy model, continuous controlAbstract
It is developed a modular scheme of intelligent system for the diagnostics of technical state of the object, which is a highly specialized CAD. It is proposed a fuzzy model to predict the fracture processes of concrete and reinforced concrete structural elements. Using the data model of continuous control of the parameters of acoustic emission waves and expertise allows taking into account the dynamics of destruction under random loads and fields.
Integration with the calculated set of universal CAD system allows: increase for proposed system the degree of automation and reliability of diagnosis at different periods of the life cycle of buildings, improve forecasting quality and increase the probability of timely measures to prevent the critical situations.
Using the diagnosis data can significantly affect the choice of method for calculating the stress-strain state of the structures in the design.
References
- Karpash, M. O. (2013). Metodolohiia bahatoparametrovoho diahnostuvannia tekhnichnoho stanu truboprovodiv dovhotryvaloi ekspluatatsii. Tekhnycheskaia dyahnostyka y nerazrushaiushchyi kontrol, № 3, 23-30.
- Kozachenko, Yu. V., Pashko, A. A. (2014). Accuracy of Simulations of the Gaussian random processes with continuous spectrum. Computer Modelling and New Technologies, Vol. 18, № 3, 7-12.
- Mikhailenko, V. M., Terentiev, O. O., Yeremenko, B. M. (2014). Obrobka eksperymentalnykh rezultativ roboty ekspertnoi systemy dlia zadachi diahnostyky tekhnichnoho stanu budivel. Stroitel'stvo, materialovedenie, mashinostroenie, № 78, 190-1195.
- Mikhailenko, V. M., Terentiev, O. O., Yeremenko, B. M. (2013). Informatsiina tekhnolohiia otsinky tekhnichnoho stanu elementiv budivelnykh konstruktsii iz zastosuvanniam nechitkykh modelei. Stroitel'stvo, materialovedenie, mashinostroenie, № 70, 133-141.
- Bavarian, B., Reiner, L., Yuossefpour, H., Juraga, J. (2005). Vapor phase inhibitors to extend the life of aging aircraft. Corrosion, Paper 05329, 1-9.
- Skalskyi, R. V., Koval, P. M. (2005). Akustychna emisiia pid chas ruinuvannia materialiv, vyrobiv i konstruktsii. Metodolohichni aspekty vidboru ta obrobky informatsii. Lviv: Spolokh, 396.
- Nedoseka, S. A., Nedoseka, A. Ya. (2005). Diagnosticheskie sistemy semeistva «EMA». Osnovnye printsipy i osobennosti arhitektury. Tehnicheskaia diagnostika i nerazrushaiushchii kontrol', № 3, 20-26.
- Hlyva, A. V., Delas, M. I., Yeremenko, B. M. (2010). Neperervnyi akustychnyi kontrol ta identyfikatsiia trishchynoutvorennia v metalevykh konstruktsiiakh. Upravlinnia rozvytkom skladnykh system, №1, 115-118.
- Barabash, M. S., Romashkina, M. A. (2014). Metodika modelirovaniia progressiruiushchego obrusheniia na primere real'nyh vysotnyh zdanii. Stroitel'stvo, materialovedenie, mashinostroenie, № 78, 28-37.
- Yeremenko, B. M. (2012). Zastosuvannia metodiv neruinivnoho kontroliu do vyznachennia tekhnichnoho stanu obiektiv budivnytstva. Teoriia i praktyka budivnytstva, V. 10, 25-28.
- Chen, G., Ma, Y.-S., Thimm, G., Tang, S.-H. (2004, January). Unified Feature Modeling Scheme for the Integration of CAD and CAx. Computer-Aided Design and Applications, Vol. 1, № 1-4, 595–601. doi:10.1080/16864360.2004.10738303
- Citarella, R., Federico, L., Cicatiello, A. (2007, March). Modal acoustic transfer vector approach in a FEM–BEM vibro-acoustic analysis. Engineering Analysis with Boundary Elements, Vol. 31, № 3, 248–258. doi:10.1016/j.enganabound.2006.09.004
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