Kiss István Z, Rusin Craig G, Kori Hiroshi, Hudson John L
Department of Chemical Engineering, 102 Engineers' Way, University of Virginia, Charlottesville, VA 22904-4741, USA.
Science. 2007 Jun 29;316(5833):1886-9. doi: 10.1126/science.1140858. Epub 2007 May 24.
We used phase models to describe and tune complex dynamic structures to desired states; weak, nondestructive signals are used to alter interactions among nonlinear rhythmic elements. Experiments on electrochemical reactions on electrode arrays were used to demonstrate the power of mild model-engineered feedback to achieve a desired response. Applications are made to the generation of sequentially visited dynamic cluster patterns similar to reproducible sequences seen in biological systems and to the design of a nonlinear antipacemaker for the destruction of pathological synchronization of a population of interacting oscillators.
我们使用相位模型来描述复杂的动态结构并将其调整到期望状态;利用微弱、非破坏性信号来改变非线性节律元素之间的相互作用。通过对电极阵列上的电化学反应进行实验,以证明适度的模型工程反馈实现期望响应的能力。该方法可应用于生成类似于生物系统中可重现序列的顺序访问动态簇模式,以及设计用于破坏相互作用的振荡器群体病理同步的非线性反起搏器。
