Shunting Inhibitory Cellular Neural Networks with Compartmental Unpredictable Coefficients and Inputs

Date

2023-03-01

Author

Akhmet, Marat
Tleubergenova, Madina
Zhamanshin, Akylbek

Metadata

Show full item record

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Item Usage Stats

200
views

98
downloads

Cite This

Shunting inhibitory cellular neural networks with compartmental periodic unpredictable coefficients and inputs is the focus of this research. A new algorithm is suggested, to enlarge the set of known unpredictable functions by applying diagonalization in arguments of functions of several variables. Sufficient conditions for the existence and uniqueness of exponentially stable unpredictable and Poisson stable outputs are obtained. To attain theoretical results, the included intervals method and the contraction mapping principle are used. Appropriate examples with numerical simulations that support the theoretical results are provided. It is shown how dynamics of the neural network depend on a new numerical characteristic, the degree of periodicity.

Subject Keywords

shunting inhibitory cellular neural networks, compartmental periodic unpredictable functions, unpredictable solutions, Poisson stable solutions, the method of included intervals, exponential stability, ALMOST-PERIODIC SOLUTIONS, ANTIPERIODIC SOLUTIONS, PATTERN-RECOGNITION, STABILITY, SICNNS, CHAOS

URI

https://hdl.handle.net/11511/103049

Collections

Department of Mathematics, Article