Přístupnostní navigace
E-application
Search Search Close
Publication detail
DIBLÍK, J. SHATYRKO, A. KHUSAINOV, D. OLEKSII, B. BAŠTINEC, J.
Original Title
Construction and Optimization of Stability Conditions of Learning Processes in Mathematical Models of Neurodynamics
Type
conference paper
Language
English
Original Abstract
This article is devoted to dynamic processes in the field of artificial intelligence, namely in the tasks of neurodynamics: the field of knowledge in which neural networks are considered as nonlinear dynamical systems and focuses on the problem of stability. The systems under consideration share four common characteristics: a large number of nodes (neurons), nonlinearity, dissipativity, noise. The purpose of this work is to build to construct of asymptotic stability conditions for dynamic model of neuronet network, which is described in terms of ODE nonlinear systems. Main method of investigation is Lyapunov direct method. Authors show that solution of pointed problem can be reduced to the task of convex optimization. By realization on Python tools the algorithm of Nelder-Mead method, a number of numerical experiments were conducted to select the optimal parameters of the Lyapunov function.
Keywords
Neuronet model; differential equation system; software; stability; Lyapunov function.
Authors
DIBLÍK, J.; SHATYRKO, A.; KHUSAINOV, D.; OLEKSII, B.; BAŠTINEC, J.
Released
2. 12. 2022
Publisher
CEUR-WS
ISBN
1613-0073
Periodical
CEUR Workshop Proceedings
State
Federal Republic of Germany
Pages from
1
Pages to
10
Pages count
BibTex
@inproceedings{BUT187326, author="Andrej {Shatyrko} and Denys Ya. {Khusainov} and Bychkov {Oleksii} and Josef {Diblík} and Jaromír {Baštinec}", title="Construction and Optimization of Stability Conditions of Learning Processes in Mathematical Models of Neurodynamics", booktitle="9th International Scientific Conference {"}Information Technology and Implementation{"}", year="2022", journal="CEUR Workshop Proceedings", pages="1--10", publisher="CEUR-WS", issn="1613-0073" }