【摘 要】
:
Self-synchronization,compound synchronization and intelligent control synchronization widely exist in the mechanical system engineering,while lag self-synch
【机 构】
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SchoolofMechanicalEngineeringandAutomation,NortheasternUniversity,Shenyang,110004,China
【出 处】
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The 5th International Conference on Nonlinear Science and Co
论文部分内容阅读
Self-synchronization,compound synchronization and intelligent control synchronization widely exist in the mechanical system engineering,while lag self-synchronization movement is a special form of cooperation movement.Based on coupling Duffing system,this paper studies lag self-synchronization problem,analyses general change law of the system co-rotating synchronization frequency,anti-synchronization frequency and lag phase angle by analytic analysis and numerical quantitative analysis,studies coupling parameter influences on systematic lag self-synchronization,and analyses the cause of lag self-synchronization.The results show that the root cause of lag self-synchronization is systematic stiffness namely systematic natural characteristic; that co-rotating synchronization vibration frequency and phase difference depend on coupling stiffness parameter; and that frequency and phase difference of anti-synchronization vibration are independent of coupling stiffness parameter; and when coupling stiffness parameter is larger,phase difference of two oscillators in the two kinds of synchronization is nonzero constant value.
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