Shuttle-run synchronization in mobile ad hoc networks

Sheng Fei Ma; Hong Jie Bi; Yong Zou; Zong Hua Liu; Shu Guang Guan

doi:10.1007/s11467-015-0475-z

Shuttle-run synchronization in mobile ad hoc networks

Sheng Fei Ma
, Hong Jie Bi
, Yong Zou
, Zong Hua Liu
, Shu Guang Guan^*

^*Corresponding author for this work

School of Physics and Electronic Science

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

8 Scopus citations

Abstract

In this work, we study the collective dynamics of phase oscillators in a mobile ad hoc network whose topology changes dynamically. As the network size or the communication radius of individual oscillators increases, the topology of the ad hoc network first undergoes percolation, forming a giant cluster, and then gradually achieves global connectivity. It is shown that oscillator mobility generally enhances the coherence in such networks. Interestingly, we find a new type of phase synchronization/clustering, in which the phases of the oscillators are distributed in a certain narrow range, while the instantaneous frequencies change signs frequently, leading to shuttle-run-like motion of the oscillators in phase space. We conduct a theoretical analysis to explain the mechanism of this synchronization and obtain the critical transition point.

Original language	English
Pages (from-to)	343-350
Number of pages	8
Journal	Frontiers of Physics
Volume	10
Issue number	3
DOIs	https://doi.org/10.1007/s11467-015-0475-z
State	Published - 15 Jun 2015

Keywords

ad hoc network
phase transition
synchronization

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10.1007/s11467-015-0475-z

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title = "Shuttle-run synchronization in mobile ad hoc networks",

abstract = "In this work, we study the collective dynamics of phase oscillators in a mobile ad hoc network whose topology changes dynamically. As the network size or the communication radius of individual oscillators increases, the topology of the ad hoc network first undergoes percolation, forming a giant cluster, and then gradually achieves global connectivity. It is shown that oscillator mobility generally enhances the coherence in such networks. Interestingly, we find a new type of phase synchronization/clustering, in which the phases of the oscillators are distributed in a certain narrow range, while the instantaneous frequencies change signs frequently, leading to shuttle-run-like motion of the oscillators in phase space. We conduct a theoretical analysis to explain the mechanism of this synchronization and obtain the critical transition point.",

keywords = "ad hoc network, phase transition, synchronization",

author = "Ma, \{Sheng Fei\} and Bi, \{Hong Jie\} and Yong Zou and Liu, \{Zong Hua\} and Guan, \{Shu Guang\}",

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T1 - Shuttle-run synchronization in mobile ad hoc networks

AU - Ma, Sheng Fei

AU - Bi, Hong Jie

AU - Zou, Yong

AU - Liu, Zong Hua

AU - Guan, Shu Guang

PY - 2015/6/15

Y1 - 2015/6/15

N2 - In this work, we study the collective dynamics of phase oscillators in a mobile ad hoc network whose topology changes dynamically. As the network size or the communication radius of individual oscillators increases, the topology of the ad hoc network first undergoes percolation, forming a giant cluster, and then gradually achieves global connectivity. It is shown that oscillator mobility generally enhances the coherence in such networks. Interestingly, we find a new type of phase synchronization/clustering, in which the phases of the oscillators are distributed in a certain narrow range, while the instantaneous frequencies change signs frequently, leading to shuttle-run-like motion of the oscillators in phase space. We conduct a theoretical analysis to explain the mechanism of this synchronization and obtain the critical transition point.

AB - In this work, we study the collective dynamics of phase oscillators in a mobile ad hoc network whose topology changes dynamically. As the network size or the communication radius of individual oscillators increases, the topology of the ad hoc network first undergoes percolation, forming a giant cluster, and then gradually achieves global connectivity. It is shown that oscillator mobility generally enhances the coherence in such networks. Interestingly, we find a new type of phase synchronization/clustering, in which the phases of the oscillators are distributed in a certain narrow range, while the instantaneous frequencies change signs frequently, leading to shuttle-run-like motion of the oscillators in phase space. We conduct a theoretical analysis to explain the mechanism of this synchronization and obtain the critical transition point.

KW - ad hoc network

KW - phase transition

KW - synchronization

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DO - 10.1007/s11467-015-0475-z

M3 - 文章

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VL - 10

SP - 343

EP - 350

JO - Frontiers of Physics

JF - Frontiers of Physics

IS - 3

ER -

Shuttle-run synchronization in mobile ad hoc networks

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