1) Unstable periodic orbits
非稳定周期轨道
1.
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).
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。
2) UPOs
非稳定周期轨道(UPOs)
3) unsuperstable periodic orbit
非超稳定周期轨
4) unstable periodic orbits
不稳定周期轨道
1.
Identification of determinant dynamics in neurons spiking series by using unstable periodic orbits;
运用不稳定周期轨道方法识别神经元阵发放电序列中的确定性动力学
2.
Study of neuron information coding based on theory of unstable periodic orbits;
用不稳定周期轨道理论研究神经信息编码规律
3.
Numerical simulation results showed that the unstable periodic orbits of the system could be ballasted,the chaos could be eliminated via choosing proper delayed time and gain coefficient,and the system could be changed from unstable to s.
数值仿真结果表明,选择适当的延迟时间和反馈系数能够控制系统的不稳定周期轨道、消除混沌,并能使系统从失稳状态进入稳定状态。
5) unstable periodic orbit
不稳定周期轨道
1.
The stabilization problem of unstable periodic orbits embedded in chaotic discrete-time systems is discussed.
研究混沌离散系统中不稳定周期轨道的镇定问题。
2.
The theoretical results on the limitation and controllability of delayed feedback control with respect to the stabilization of unstable fixed point or unstable periodic orbit and the experimental results of the delayed feedback control s applications in controlling chaos in electrical circuits and magneto-elastic beam are summed up.
综述了近年来控制混沌的延迟反馈控制技术──DFC控制的相关进展,总结了延迟反馈控制在不动点和不稳定周期轨道镇定方面的局限性和可控性研究的理论成果,介绍了延迟反馈控制在电子线路和磁弹性梁混沌控制方面的实验,并对延迟反馈控制技术未来的研究方向和发展前景进行了预测和展望。
6) stabilize/periodic orbit
稳定/周期轨
补充资料:轨道周期
人造卫星在轨道上环绕地球运行一周所需的时间。与轨道离地高度有关。轨道半长轴愈长,周期愈长。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条