从连续数据中学习有向无环图的整数编程。

INFORMS journal on optimization Pub Date : 2021-01-01 Epub Date: 2020-11-03 DOI:10.1287/ijoo.2019.0040
Hasan Manzour, Simge Küçükyavuz, Hao-Hsiang Wu, Ali Shojaie
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引用次数: 0

摘要

从数据中学习有向无环图(DAG)无论在理论上还是在实践中都是一项具有挑战性的任务,因为可能的 DAG 数量与节点数量成超指数关系。本文研究了从连续观测数据中学习最优 DAG 的问题。我们以数学编程模型的形式来解决这个问题,该模型可以自然地结合上层结构来减少可能的候选 DAG 集。我们使用具有 ℓ 0 和 ℓ 1 惩罚的负对数似然得分函数,并提出了一种新的混合整数二次方程程序,称为分层网络(LN)公式。LN 公式是一个紧凑的模型,在温和的条件下,它与更强但更大的公式一样,享有紧密的最优连续松弛值。计算结果表明,所提出的公式优于现有的数学公式,其规模也优于仅用 ℓ 1 正则化就能解决相同问题的现有算法。特别是,在存在稀疏上层结构的情况下,就找到最优 DAG 所需的计算时间而言,LN 公式明显优于现有方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integer Programming for Learning Directed Acyclic Graphs from Continuous Data.

Learning directed acyclic graphs (DAGs) from data is a challenging task both in theory and in practice, because the number of possible DAGs scales superexponentially with the number of nodes. In this paper, we study the problem of learning an optimal DAG from continuous observational data. We cast this problem in the form of a mathematical programming model that can naturally incorporate a superstructure to reduce the set of possible candidate DAGs. We use a negative log-likelihood score function with both 0 and 1 penalties and propose a new mixed-integer quadratic program, referred to as a layered network (LN) formulation. The LN formulation is a compact model that enjoys as tight an optimal continuous relaxation value as the stronger but larger formulations under a mild condition. Computational results indicate that the proposed formulation outperforms existing mathematical formulations and scales better than available algorithms that can solve the same problem with only 1 regularization. In particular, the LN formulation clearly outperforms existing methods in terms of computational time needed to find an optimal DAG in the presence of a sparse superstructure.

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