On Discrete-Time Models of Network Worm Propagation Generated by Quadratic Operators

Fatima Adilova; Uygun Jamilov; Andrejs Reinfelds

doi:10.3846/mma.2023.15999

On Discrete-Time Models of Network Worm Propagation Generated by Quadratic Operators

Fatima Adilova
, Uygun Jamilov^*
, Andrejs Reinfelds

^*Corresponding author for this work

University of Latvia

Academy of Sciences of the Republic of Uzbekistan
AKFA University
National University of Uzbekistan named after Mirzo Ulugbek

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In this paper we consider the discrete-time dynamical systems generated by network worm propagation models based on the theory of quadratic stochastic operators(QSO). This approach simultaneously solves two important problems: ex-ploring of the QSO trajectory‘s behavior, we described the set of limit points, thereby completely solved the main problem of dynamical systems (i), we showed a new application of the theory QSOs in worm propagation modelling (ii). We demonstrated that proposed discrete-time biologically-inspired model represents also realistic picture of the worm propagation process and such analytical models can be used in decision of some problems of computer networks.

Original language	English
Pages (from-to)	194-217
Number of pages	24
Journal	Mathematical Modelling and Analysis
Volume	28
Issue number	2
DOIs	https://doi.org/10.3846/mma.2023.15999
Publication status	Published - 21 Mar 2023

Keywords

modeling
network worms
propagation dynamics
quadratic stochastic opera-tor
regular operator

OECD Field of Science

2.2 Electrical Engineering, Electronic Engineering, Information Engineering

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10.3846/mma.2023.15999

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title = "On Discrete-Time Models of Network Worm Propagation Generated by Quadratic Operators",

abstract = "In this paper we consider the discrete-time dynamical systems generated by network worm propagation models based on the theory of quadratic stochastic operators(QSO). This approach simultaneously solves two important problems: ex-ploring of the QSO trajectory{\textquoteleft}s behavior, we described the set of limit points, thereby completely solved the main problem of dynamical systems (i), we showed a new application of the theory QSOs in worm propagation modelling (ii). We demonstrated that proposed discrete-time biologically-inspired model represents also realistic picture of the worm propagation process and such analytical models can be used in decision of some problems of computer networks.",

keywords = "modeling, network worms, propagation dynamics, quadratic stochastic opera-tor, regular operator",

author = "Fatima Adilova and Uygun Jamilov and Andrejs Reinfelds",

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year = "2023",

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doi = "10.3846/mma.2023.15999",

language = "English",

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T1 - On Discrete-Time Models of Network Worm Propagation Generated by Quadratic Operators

AU - Adilova, Fatima

AU - Jamilov, Uygun

AU - Reinfelds, Andrejs

PY - 2023/3/21

Y1 - 2023/3/21

N2 - In this paper we consider the discrete-time dynamical systems generated by network worm propagation models based on the theory of quadratic stochastic operators(QSO). This approach simultaneously solves two important problems: ex-ploring of the QSO trajectory‘s behavior, we described the set of limit points, thereby completely solved the main problem of dynamical systems (i), we showed a new application of the theory QSOs in worm propagation modelling (ii). We demonstrated that proposed discrete-time biologically-inspired model represents also realistic picture of the worm propagation process and such analytical models can be used in decision of some problems of computer networks.

AB - In this paper we consider the discrete-time dynamical systems generated by network worm propagation models based on the theory of quadratic stochastic operators(QSO). This approach simultaneously solves two important problems: ex-ploring of the QSO trajectory‘s behavior, we described the set of limit points, thereby completely solved the main problem of dynamical systems (i), we showed a new application of the theory QSOs in worm propagation modelling (ii). We demonstrated that proposed discrete-time biologically-inspired model represents also realistic picture of the worm propagation process and such analytical models can be used in decision of some problems of computer networks.

KW - modeling

KW - network worms

KW - propagation dynamics

KW - quadratic stochastic opera-tor

KW - regular operator

UR - https://journals.vilniustech.lt/index.php/MMA/article/view/15999/11554

UR - https://www.scopus.com/pages/publications/85151456428

U2 - 10.3846/mma.2023.15999

DO - 10.3846/mma.2023.15999

M3 - Article

SN - 1392-6292

VL - 28

SP - 194

EP - 217

JO - Mathematical Modelling and Analysis

JF - Mathematical Modelling and Analysis

IS - 2

ER -

On Discrete-Time Models of Network Worm Propagation Generated by Quadratic Operators

Abstract

Keywords

OECD Field of Science

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