提出一种利用比例脉冲反馈控制化学混沌的方法。
In this paper an approach to control chaos in chemical system by using proportional pulse feedback is proposed.
用随机模拟方法研究了化学混沌模型的介观动力学。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations.
本文用随机模拟方法研究了一化学混沌模型的介观动力学。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations in this paper .
第一种控制方案是一种微扰控制,并能将BZ-CSTR化学混沌稳定控制到其内嵌的不稳定周期轨道(UPO)上去。
The first control method is a kind of perturbation control and can stabilize the BZ-CSTR chemical chaos to its embedded unstable periodic orbits (UPO).
产生短暂混沌即人类意识的神经化学架构也许复杂到无法在数字化的硅元件上进行类比和重复。
The neurochemical architecture that generates the ephemeral chaos we know as human consciousness may just be too complex and analog to replicate in digital silicon.
混沌作为一种复杂的非线性运动行为,在生物学、物理学、化学、工程学和信息学等领域得到了广泛的研究。
Chaotic systems are well known for their very complex nonlinear systems, and have been intensively studied in various fields such as biology, physics, chemistry, engineering and information.
混沌作为一种复杂的非线性运动行为,在生物学、物理学、化学、工程学和信息学等领域得到了广泛的研究。
Chaotic systems are well known for their very complex nonlinear systems, and have been intensively studied in various fields such as biology, physics, chemistry, engineering and information.
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