上海交通大学学报(英文版) ›› 2013, Vol. 18 ›› Issue (2): 229-236.doi: 10.1007/s12204-013-1387-0

• 论文 • 上一篇    下一篇

An Improved Method of Detecting Chaotic Motion for Rotor-Bearing Systems

SHI Ming-lin* (师名林), WANG De-zhong (王德忠), ZHANG Ji-ge (张继革)   

  1. (School of Mechanical Engineering, Shanghai Jiaotong University, Shanghai 200240, China)
  • 出版日期:2013-04-30 发布日期:2013-05-10
  • 通讯作者: SHI Ming-lin(师名林) E-mail:mlshi@sjtu.edu.cn

An Improved Method of Detecting Chaotic Motion for Rotor-Bearing Systems

SHI Ming-lin* (师名林), WANG De-zhong (王德忠), ZHANG Ji-ge (张继革)   

  1. (School of Mechanical Engineering, Shanghai Jiaotong University, Shanghai 200240, China)
  • Online:2013-04-30 Published:2013-05-10
  • Contact: SHI Ming-lin(师名林) E-mail:mlshi@sjtu.edu.cn

摘要: Based on reconstructing the phase space and calculating the largest Lyapunov exponent, an improved method of detecting chaotic motion is presented for rotor-bearing systems. The method is an improvement to the Wolf method and the Rosenstein algorithm. The improved method introduces the correlation integral function method to estimate the embedding dimension and the reconstruction delay simultaneously, and it makes tracks for the evolutions of every pair of the nearest neighbors to improve the utilization of the reconstructed phase space. Numerical calculation and experimental verification show that the improved method can estimate the proper reconstruction parameters and detect chaotic motion of rotor-bearing systems accurately. In addition, the analytical results show that the current approach is robust to variations of the embedding dimension and the reconstruction delay, and it is applicable to small data sets.

关键词: rotor-bearing, phase space reconstruction, Lyapunov exponent, chaotic motion

Abstract: Based on reconstructing the phase space and calculating the largest Lyapunov exponent, an improved method of detecting chaotic motion is presented for rotor-bearing systems. The method is an improvement to the Wolf method and the Rosenstein algorithm. The improved method introduces the correlation integral function method to estimate the embedding dimension and the reconstruction delay simultaneously, and it makes tracks for the evolutions of every pair of the nearest neighbors to improve the utilization of the reconstructed phase space. Numerical calculation and experimental verification show that the improved method can estimate the proper reconstruction parameters and detect chaotic motion of rotor-bearing systems accurately. In addition, the analytical results show that the current approach is robust to variations of the embedding dimension and the reconstruction delay, and it is applicable to small data sets.

Key words: rotor-bearing, phase space reconstruction, Lyapunov exponent, chaotic motion

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