提示出非稳定周期轨道在神经不规则放电节律的动力学之中起着重要作用。
These results suggest that the UPO play an important role in the dynamics of the irregular firing pattern of neuron's discharge.
提示出非稳定周期轨道在神经不规则放电节律的动力学之中起着重要作用。
These results suggest that the UPO play an important role in the dynamics of the irregular firing pattern of neur...
结论非稳定周期轨道可以刻划hrv的动力学性质,是分析HRV的潜在的方法。
Conclusion UPOs can be used to characterize the dynamics of HRV and is a potential method to analyze HRV.
这种分析的概念的基础是将所观察到的神经元活动抽象成用非稳定周期轨道的分级所描述的动力学图。
The conceptual foundation of this analysis is the abstraction of observed neuronal activities into a dynamical landscape characterized by a hierarchy of "unstable periodic orbits" (UPOs).
目的研究立位心脏R- R间期信号的非稳定周期轨道的结构,进一步探讨心率变异(HRV)的动力学特征。
Objective To study structure of the unstable periodic orbits (UPOs) of R-R interval signals of heart during orthostatic standing, and to reveal the dynamic characters of heart rate variability (HRV).
在此基础上,进一步对阵发放电的非稳定周期轨道分级进行了初步研究,检测到了显著的周期2与周期3轨道。
We also detected the orbits with higher periods, and highly significant unstable period 2 and period 3 orbits were identified.
从得到的1 0例数据中无一例外地检测到了具有高度统计显著性的非稳定周期1轨道。
Unstable period 1 orbits with high statistical significance were identified in all 10 data sets.
从得到的1 0例数据中无一例外地检测到了具有高度统计显著性的非稳定周期1轨道。
Unstable period 1 orbits with high statistical significance were identified in all 10 data sets.
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