Please use this identifier to cite or link to this item: http://lib.kart.edu.ua/handle/123456789/14726
Title: Construction of an analytical method for limiting the complexity of neural-fuzzy models with guaranteed accuracy
Other Titles: Розробка аналітичного методу обмеження складності нейро-нечітких моделей гарантованої точності
Authors: Sytnik, Borys
Bryksin, Volodymyr
Yatsko, Sergiy
Vashchenko, Yaroslav
Keywords: approximation
guaranteed accuracy
fuzzy logic
neural networks
imitation simulation
апроксимація
гарантована точність
нечітка логіка
нейронні мережі
імітаційне моделювання
Issue Date: 2019
Publisher: Технологічний Центр
Citation: Sytnik B. Construction of an analytical method for limiting the complexity of neural-fuzzy models with guaranteed accuracy / B. Sytnik, V. Bryksin, S. Yatsko, Y. Vashchenko // Eastern-European Journal of Enterprise Technologies. - 2019. - Vol. 2, № 4(98). - С. 6-13.
Series/Report no.: Mathematics and Cybernetics - applied aspects;
Abstract: EN: We have proposed an analytical method for limiting the complexity of neural-fuzzy models that provide for the guaranteed accuracy of their implementation when approximating functions with two or more derivatives. The method makes it possible to determine the required minimal number of parameters for systems that employ fuzzy logic, as well as neural models. We have estimated the required number of neurons (terms) in a model, which ensure the accuracy required for the area of a model curve to approach the system one along the sections of function approximation. The estimate for an approximation error was obtained based on the residual members of decomposition, in the Lagrangian form, of areas of the approximated system function into a Maclaurin series. The results received make it possible to determine the required number of approximation sections and the number of neurons (terms) in order to ensure the assigned relative and absolute error of approximation.
URI: http://lib.kart.edu.ua/handle/123456789/14726
ISSN: 1729-3774 (print); 1729-4061 (online)
Appears in Collections:2019

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