Yorgos M. Psarellis, Themistoklis P. Sapsis, Ioannis G. Kevrekidis
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引用次数: 0
Abstract
Bifurcations mark qualitative changes of long-term behavior in dynamical
systems and can often signal sudden ("hard") transitions or catastrophic events
(divergences). Accurately locating them is critical not just for deeper
understanding of observed dynamic behavior, but also for designing efficient
interventions. When the dynamical system at hand is complex, possibly noisy,
and expensive to sample, standard (e.g. continuation based) numerical methods
may become impractical. We propose an active learning framework, where Bayesian
Optimization is leveraged to discover saddle-node or Hopf bifurcations, from a
judiciously chosen small number of vector field observations. Such an approach
becomes especially attractive in systems whose state x parameter space
exploration is resource-limited. It also naturally provides a framework for
uncertainty quantification (aleatoric and epistemic), useful in systems with
inherent stochasticity.
分岔标志着动态系统中长期行为的质变,通常预示着突然("艰难")的转变或灾难性事件(分歧)。准确定位分岔不仅对深入理解观察到的动态行为至关重要,而且对设计有效的干预措施也至关重要。当手头的动态系统非常复杂、可能存在噪声、采样成本高昂时,标准(如基于延续的)数值方法可能会变得不切实际。我们提出了一种主动学习框架,利用贝叶斯最优化技术,从明智选择的少量矢量场观测中发现鞍节点或霍普夫分岔。这种方法在资源有限的状态 x 参数空间探索系统中尤其具有吸引力。它还自然而然地提供了一个不确定性量化框架(估计和认识),对固有随机性系统非常有用。
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