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    Journals >Acta Physica Sinica >Volume 69 >Issue 16 >Page 160501-1 > Article
    • Acta Physica Sinica
    • Vol. 69, Issue 16, 160501-1 (2020)
    Threshold determination method of Duffing chaotic system based on multi-scale entropy
    Ze-Hui Huang, Ya-An Li*, Zhe Chen, and Lian Liu
    Author Affiliations
  • School of Marine, Northwestern Polytechnical University, Xi’an 710072, China
    • show less
    DOI: 10.7498/aps.69.20191642 Cite this Article
    Ze-Hui Huang, Ya-An Li, Zhe Chen, Lian Liu. Threshold determination method of Duffing chaotic system based on multi-scale entropy[J]. Acta Physica Sinica, 2020, 69(16): 160501-1 Copy Citation Text show less
    System state transition: (a) System state transition; (b) periodic state.
    Fig. 1. System state transition: (a) System state transition; (b) periodic state.
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    Variation of multi-scale entropy in square wave signal detection system.
    Fig. 2. Variation of multi-scale entropy in square wave signal detection system.
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    Simulation experiment to solve the threshold of square wave signal detection system.
    Fig. 3. Simulation experiment to solve the threshold of square wave signal detection system.
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    Variation of multi-scale entropy in sinusoidal signal detection system.
    Fig. 4. Variation of multi-scale entropy in sinusoidal signal detection system.
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    Simulation experiment to solve the threshold of sinusoidal signal detection system.
    Fig. 5. Simulation experiment to solve the threshold of sinusoidal signal detection system.
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    Real underwater acoustic signal.
    Fig. 6. Real underwater acoustic signal.
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    Spectrum of real underwater acoustic signals.
    Fig. 7. Spectrum of real underwater acoustic signals.
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    Changes in multi-scale entropy of real signal detection system.
    Fig. 8. Changes in multi-scale entropy of real signal detection system.
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    Simulation experiment to solve the threshold of real underwater acoustic signal detection system.
    Fig. 9. Simulation experiment to solve the threshold of real underwater acoustic signal detection system.
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    Detecting real underwater acoustic signals: (a) The system did not add a real signal; (b) system adds real signal
    Fig. 10. Detecting real underwater acoustic signals: (a) The system did not add a real signal; (b) system adds real signal
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    Variation of multi-scale entropy in 5 rad/s sinusoidal signal detection system.
    Fig. 11. Variation of multi-scale entropy in 5 rad/s sinusoidal signal detection system.
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    Simulation experiment to solve the threshold of 5 rad/s sinusoidal signal detection system.
    Fig. 12. Simulation experiment to solve the threshold of 5 rad/s sinusoidal signal detection system.
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    Critical chaotic state of the system.
    Fig. 13. Critical chaotic state of the system.
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    Variation of maximum multi-scale entropy of 5 rad/s sinusoidal signal detection system.
    Fig. 14. Variation of maximum multi-scale entropy of 5 rad/s sinusoidal signal detection system.
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    序列123456
    MsEn0.11880.07790.07680.07960.07660.0780
    Table 1. Entropy value of the Duffing subsequence segment ( )
    序列123456
    MsEn0.08200.08220.08020.07900.07770.0753
    Table 2. Entropy value of the Duffing subsequence segment( )
    Abstract
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    Ze-Hui Huang, Ya-An Li, Zhe Chen, Lian Liu. Threshold determination method of Duffing chaotic system based on multi-scale entropy[J]. Acta Physica Sinica, 2020, 69(16): 160501-1
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