An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks

An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks

This paper presents synchronization of mixed continuous-discrete complex network via impulse-quantizing approach. A delay-partitioning group strategy is proposed and impulse-quantizing control is designed to derive theoretical criteria ensuring scale-type synchronization of complex networks. Our res...

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Main Authors: Na Hu, Luyan Li, Honghua Bin, Zhenkun Huang
Format: Article
Language:English
Published: Wiley 2023-01-01
Series:Discrete Dynamics in Nature and Society
Online Access:http://dx.doi.org/10.1155/2023/7273140
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author Na Hu
Luyan Li
Honghua Bin
Zhenkun Huang
author_facet Na Hu
Luyan Li
Honghua Bin
Zhenkun Huang
author_sort Na Hu
collection DOAJ
description This paper presents synchronization of mixed continuous-discrete complex network via impulse-quantizing approach. A delay-partitioning group strategy is proposed and impulse-quantizing control is designed to derive theoretical criteria ensuring scale-type synchronization of complex networks. Our results show that synchronization of mixed continuous-discrete complex networks can be realized by controlling delay-partitioning subgroup nodes with impulsive quantization. The theoretical results give scale-limited sufficient conditions for quantized synchronization relying on control gains, impulsive intervals, and delays. A numerical simulation is given to demonstrate the effectiveness of the theoretical results.
format Article
id doaj-art-5a6c98ea67e747f1b053d2ccbe85af1d
institution Kabale University
issn 1607-887X
language English
publishDate 2023-01-01
publisher Wiley
record_format Article
series Discrete Dynamics in Nature and Society
spelling doaj-art-5a6c98ea67e747f1b053d2ccbe85af1d2025-02-03T00:12:11ZengWileyDiscrete Dynamics in Nature and Society1607-887X2023-01-01202310.1155/2023/7273140An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex NetworksNa Hu0Luyan Li1Honghua Bin2Zhenkun Huang3School of ScienceSchool of ScienceSchool of ScienceSchool of ScienceThis paper presents synchronization of mixed continuous-discrete complex network via impulse-quantizing approach. A delay-partitioning group strategy is proposed and impulse-quantizing control is designed to derive theoretical criteria ensuring scale-type synchronization of complex networks. Our results show that synchronization of mixed continuous-discrete complex networks can be realized by controlling delay-partitioning subgroup nodes with impulsive quantization. The theoretical results give scale-limited sufficient conditions for quantized synchronization relying on control gains, impulsive intervals, and delays. A numerical simulation is given to demonstrate the effectiveness of the theoretical results.http://dx.doi.org/10.1155/2023/7273140
spellingShingle Na Hu
Luyan Li
Honghua Bin
Zhenkun Huang
An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
Discrete Dynamics in Nature and Society
title An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
title_full An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
title_fullStr An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
title_full_unstemmed An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
title_short An Impulse-Quantizing Synchronization Approach for Mixed Continuous-Discrete Complex Networks
title_sort impulse quantizing synchronization approach for mixed continuous discrete complex networks
url http://dx.doi.org/10.1155/2023/7273140
work_keys_str_mv AT nahu animpulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT luyanli animpulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT honghuabin animpulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT zhenkunhuang animpulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT nahu impulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT luyanli impulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT honghuabin impulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks
AT zhenkunhuang impulsequantizingsynchronizationapproachformixedcontinuousdiscretecomplexnetworks

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