概率数据中的贡献最大化

T. Milo, Y. Moskovitch, Brit Youngmann
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引用次数: 1

摘要

在涉及递归计算和不确定性的应用中,最近提倡使用概率数据程序。虽然使用这样的程序允许灵活的知识派生,但它使查询结果的分析成为一项具有挑战性的任务。特别是,给定一组O个输出元组和一个数字k,人们想要了解输入元组的哪个k大小的子集对O的推导贡献最大。这对于多个任务很有用,例如识别错误的关键来源和理解令人惊讶的结果。以前的工作主要集中在非递归SQL查询中元组对查询结果的贡献的量化上,通常忽略了概率推理。为了量化概率数据程序中的贡献,必须考虑输入和输出数据之间的递归关系以及不确定性。为此,我们将贡献最大化(CM)问题形式化。然后,我们将CM简化为经过充分研究的影响最大化(IM)问题,表明我们可以利用为IM开发的技术来实现我们的设置。然而,我们表明这样的naïve采用导致了较差的性能。为了克服这个问题,我们提出了一种优化算法,该算法将经典Magic Sets技术的改进变体与采样方法集成到IM算法中,从而大大节省了空间和执行时间。我们的实验证明了我们的算法的有效性,即使naïve方法是不可行的。
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Contribution Maximization in Probabilistic Datalog
The use of probabilistic datalog programs has been recently advocated for applications that involve recursive computation and uncertainty. While using such programs allows for a flexible knowledge derivation, it makes the analysis of query results a challenging task. Particularly, given a set O of output tuples and a number k, one would like to understand which k-size subset of the input tuples have contributed the most to the derivation of O. This is useful for multiple tasks, such as identifying the critical sources of errors and understanding surprising results. Previous works have mainly focused on the quantification of tuples contribution to a query result in non-recursive SQL queries, very often disregarding probabilistic inference. To quantify the contribution in probabilistic datalog programs, one must account for the recursive relations between input and output data, and the uncertainty. To this end, we formalize the Contribution Maximization (CM) problem. We then reduce CM to the well-studied Influence Maximization (IM) problem, showing that we can harness techniques developed for IM to our setting. However, we show that such naïve adoption results in poor performance. To overcome this, we propose an optimized algorithm which injects a refined variant of the classic Magic Sets technique, integrated with a sampling method, into IM algorithms, achieving a significant saving of space and execution time. Our experiments demonstrate the effectiveness of our algorithm, even where the naïve approach is infeasible.
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