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Nonlinear power flow analysis of the Duffing oscillator
J. Yang
, Y. P. Xiong, J. T. Xing
Research output
:
Journal Publication
›
Article
›
peer-review
51
Citations (Scopus)
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Dive into the research topics of 'Nonlinear power flow analysis of the Duffing oscillator'. Together they form a unique fingerprint.
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Keyphrases
Asymptotic Value
20%
Bifurcation
60%
Chaotic Motion
40%
Chaotic Responses
40%
Displacement Response
20%
Dissipation Behavior
20%
Double-well Potential
20%
Duffing Oscillator
100%
Flow Variables
20%
Flow-level
20%
Harmonic Balance Method
20%
Harmonic Excitation
20%
Input Power
100%
Large Jump
20%
Linear Systems
20%
Low Frequency Range
20%
Nonlinear Characteristics
20%
Nonlinear Phenomena
20%
Nonlinear Power Flow
100%
Nonlinearity
40%
Nonuniqueness of Solutions
20%
Numerical Integration
20%
Phase Velocity
20%
Potential Systems
20%
Power Dissipation
20%
Power Flow
60%
Power Flow Analysis
100%
Power Flow Characteristics
40%
Power Input
20%
Runge-Kutta
20%
Subharmonic Resonance
40%
Velocity Components
20%
Velocity Response
20%
Engineering
Asymptotic Value
16%
Chaotic Motion
33%
Energy Dissipation
16%
Flow Analysis
100%
Flow Characteristics
33%
Flow Level
16%
Flow Variable
16%
Harmonic Balance
16%
Harmonic Excitation
16%
Harmonics
33%
Initial Condition
33%
Input Power
83%
Nonlinear Phenomenon
16%
Nonlinearity
33%
Numerical Integration
16%
Phase Velocity
16%
Power Flow
100%
Power Input
16%
Substantial Increase
16%
Velocity Component
16%