Stability analysis for large scale oscillator networks

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Networks of coupled large scale oscillators have been studied in biology for a number of years. It has been recognized that transient in the nearest neighbor connected networks may take far too long to die out. In the model of mammalian rhythm, it is considered that a few long distance interconnections exist. Typically, these long distance interconnections are considered to occur in a random way. In this study, we discuss the synchronization problem for coupled oscillator networks which can model the mammalian rhythm. Finally, the distribution models for the random long distance connections are proposed and are demonstrated by simulation.

Original languageEnglish
Title of host publicationProceedings of the SICE Annual Conference
Pages1177-1180
Number of pages4
Publication statusPublished - 2005
EventSICE Annual Conference 2005 - Okayama
Duration: 2005 Aug 82005 Aug 10

Other

OtherSICE Annual Conference 2005
CityOkayama
Period05/8/805/8/10

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Synchronization

Keywords

  • Mammalian rhythm
  • Oscillator
  • Small world network
  • Synchronization

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Chen, X. (2005). Stability analysis for large scale oscillator networks. In Proceedings of the SICE Annual Conference (pp. 1177-1180)

Stability analysis for large scale oscillator networks. / Chen, Xinkai.

Proceedings of the SICE Annual Conference. 2005. p. 1177-1180.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Chen, X 2005, Stability analysis for large scale oscillator networks. in Proceedings of the SICE Annual Conference. pp. 1177-1180, SICE Annual Conference 2005, Okayama, 05/8/8.
Chen X. Stability analysis for large scale oscillator networks. In Proceedings of the SICE Annual Conference. 2005. p. 1177-1180
Chen, Xinkai. / Stability analysis for large scale oscillator networks. Proceedings of the SICE Annual Conference. 2005. pp. 1177-1180
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