使用深度高斯过程检测因果关系。

Guanchao Feng, J Gerald Quirk, Petar M Djurić
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引用次数: 3

摘要

收敛交叉映射(CCM)是一种基于状态空间重构(SSR)的方法,设计用于在耦合时间序列中发现因果关系,其中格兰杰因果关系可能由于可分性假设而不适用。然而,CCM需要大量的观测值,并且对观测噪声的鲁棒性不强,限制了其适用性。此外,在CCM及其变体中,SSR步骤大多是通过延迟嵌入实现的,通常需要使用基于网格搜索的方法选择重建参数。在本文中,我们提出了一个贝叶斯版本的CCM,使用深度高斯过程(DGPs),它与深度神经网络自然相连。特别是,我们采用基于ssr的因果发现框架,并在非参数贝叶斯概率框架内以原则性的方式使用dgp执行关键步骤。提出的方法首先在模拟数据上进行验证,然后在产科用于监测胎儿健康的数据上进行测试,即分娩前最后两小时的胎儿心率(FHR)和子宫活动(UA)信号。我们的研究结果表明,UA影响FHR,这与最近的临床研究一致。
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Detecting Causality using Deep Gaussian Processes.

Convergent cross mapping (CCM) is a state space reconstruction (SSR)-based method designed for causal discovery in coupled time series, where Granger causality may not be applicable due to a separability assumption. However, CCM requires a large number of observations and is not robust to observation noise which limits its applicability. Moreover, in CCM and its variants, the SSR step is mostly implemented with delay embedding where the parameters for reconstruction usually need to be selected using grid search-based methods. In this paper, we propose a Bayesian version of CCM using deep Gaussian processes (DGPs), which are naturally connected with deep neural networks. In particular, we adopt the framework of SSR-based causal discovery and carry out the key steps using DGPs within a non-parametric Bayesian probabilistic framework in a principled manner. The proposed approach is first validated on simulated data and then tested on data used in obstetrics for monitoring the well-being of fetuses, i.e., fetal heart rate (FHR) and uterine activity (UA) signals in the last two hours before delivery. Our results indicate that UA affects the FHR, which agrees with recent clinical studies.

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