The Reduced PC-Algorithm: Improved Causal Structure Learning in Large Random Networks.

IF 4.3 3区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

Journal of Machine Learning Research Pub Date : 2019-01-01

Arjun Sondhi, Ali Shojaie

引用次数: 0

Abstract

We consider the task of estimating a high-dimensional directed acyclic graph, given observations from a linear structural equation model with arbitrary noise distribution. By exploiting properties of common random graphs, we develop a new algorithm that requires conditioning only on small sets of variables. The proposed algorithm, which is essentially a modified version of the PC-Algorithm, offers significant gains in both computational complexity and estimation accuracy. In particular, it results in more efficient and accurate estimation in large networks containing hub nodes, which are common in biological systems. We prove the consistency of the proposed algorithm, and show that it also requires a less stringent faithfulness assumption than the PC-Algorithm. Simulations in low and high-dimensional settings are used to illustrate these findings. An application to gene expression data suggests that the proposed algorithm can identify a greater number of clinically relevant genes than current methods.

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简化PC算法：大型随机网络中改进的因果结构学习。

我们考虑了估计高维有向无环图的任务，给出了具有任意噪声分布的线性结构方程模型的观测结果。通过利用常见随机图的性质，我们开发了一种只需要对小变量集进行条件处理的新算法。所提出的算法本质上是PC算法的修改版本，在计算复杂性和估计精度方面都有显著的提高。特别是，它在包含中枢节点的大型网络中产生了更高效和准确的估计，这在生物系统中很常见。我们证明了所提出算法的一致性，并表明它还需要比PC算法更不严格的忠实性假设。使用低维和高维环境中的模拟来说明这些发现。对基因表达数据的应用表明，与目前的方法相比，所提出的算法可以识别更多的临床相关基因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Machine Learning Research 工程技术-计算机：人工智能

CiteScore

18.80

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The Journal of Machine Learning Research (JMLR) provides an international forum for the electronic and paper publication of high-quality scholarly articles in all areas of machine learning. All published papers are freely available online. JMLR has a commitment to rigorous yet rapid reviewing. JMLR seeks previously unpublished papers on machine learning that contain: new principled algorithms with sound empirical validation, and with justification of theoretical, psychological, or biological nature; experimental and/or theoretical studies yielding new insight into the design and behavior of learning in intelligent systems; accounts of applications of existing techniques that shed light on the strengths and weaknesses of the methods; formalization of new learning tasks (e.g., in the context of new applications) and of methods for assessing performance on those tasks; development of new analytical frameworks that advance theoretical studies of practical learning methods; computational models of data from natural learning systems at the behavioral or neural level; or extremely well-written surveys of existing work.