最优反应坐标:变分表征和稀疏计算

A. Bittracher, Mattes Mollenhauer, P. Koltai, C. Schütte
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引用次数: 2

摘要

反应坐标(RCs)是控制高维随机过程长期行为的隐藏的低维机制的指标。我们提出了一种新的和一般的最优RCs的变分特征,并提供了它们存在的条件。最优rc是某种损失函数的最小值,基于它们的简化模型可以很好地逼近原始高维过程的长期动态。我们表明,对于慢速系统,亚稳态系统和其他已知具有良好rc的系统,新理论再现了以前的见解。值得注意的是,评估损失函数所需的数值努力只与潜在的低维机制的复杂性有关,而与整个系统的复杂性无关。提供的理论为通过现代机器学习技术高效和数据稀疏的rc计算奠定了基础。
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Optimal Reaction Coordinates: Variational Characterization and Sparse Computation
Reaction Coordinates (RCs) are indicators of hidden, low-dimensional mechanisms that govern the long-term behavior of high-dimensional stochastic processes. We present a novel and general variational characterization of optimal RCs and provide conditions for their existence. Optimal RCs are minimizers of a certain loss function and reduced models based on them guarantee very good approximation of the long-term dynamics of the original high-dimensional process. We show that, for slow-fast systems, metastable systems, and other systems with known good RCs, the novel theory reproduces previous insight. Remarkably, the numerical effort required to evaluate the loss function scales only with the complexity of the underlying, low-dimensional mechanism, and not with that of the full system. The theory provided lays the foundation for an efficient and data-sparse computation of RCs via modern machine learning techniques.
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