满足约束条件的朗格文动态常微分方程参数采样

Chris Chi, Jonathan Weare, Aaron R. Dinner
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引用次数: 0

摘要

标准的马尔可夫链蒙特卡罗(MCMC)方法用于将普通微分方程(ODEs)拟合到时间序列数据中,包括提出试验参数集,对 ODEs 进行时间上的数值积分,以及接受或拒绝试验参数集。当模型动态非线性地依赖于参数时(通常是这种情况),试验参数集往往会被拒绝,MCMC 方法的收敛计算成本会高得令人望而却步。在这里,我们以数值延续和轨迹优化方法为基础,引入了一种方法,即在变量和参数的联合空间中使用朗格文德动力学,对满足动力学约束的模型进行采样。我们通过在贝叶斯框架下对一个生化振荡器模型的霍普夫分岔和极限循环进行采样,演示了这种方法的参数估计,与需要在时间上对 ODEs 进行数值积分的领先集合 MCMC 方法相比,我们获得了超过百倍的速度。我们描述了数值实验,以深入了解这种提速。该方法具有通用性,可用于参数估计和模型选择的任何框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sampling parameters of ordinary differential equations with Langevin dynamics that satisfy constraints
Fitting models to data to obtain distributions of consistent parameter values is important for uncertainty quantification, model comparison, and prediction. Standard Markov Chain Monte Carlo (MCMC) approaches for fitting ordinary differential equations (ODEs) to time-series data involve proposing trial parameter sets, numerically integrating the ODEs forward in time, and accepting or rejecting the trial parameter sets. When the model dynamics depend nonlinearly on the parameters, as is generally the case, trial parameter sets are often rejected, and MCMC approaches become prohibitively computationally costly to converge. Here, we build on methods for numerical continuation and trajectory optimization to introduce an approach in which we use Langevin dynamics in the joint space of variables and parameters to sample models that satisfy constraints on the dynamics. We demonstrate the method by sampling Hopf bifurcations and limit cycles of a model of a biochemical oscillator in a Bayesian framework for parameter estimation, and we obtain more than a hundred fold speedup relative to a leading ensemble MCMC approach that requires numerically integrating the ODEs forward in time. We describe numerical experiments that provide insight into the speedup. The method is general and can be used in any framework for parameter estimation and model selection.
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