Adaptive input data transformation for improved network reconstruction with information theoretic algorithms.

Pub Date : 2016-12-01 DOI:10.1515/sagmb-2016-0013
Venkateshan Kannan, Jesper Tegner
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Abstract

We propose a novel systematic procedure of non-linear data transformation for an adaptive algorithm in the context of network reverse-engineering using information theoretic methods. Our methodology is rooted in elucidating and correcting for the specific biases in the estimation techniques for mutual information (MI) given a finite sample of data. These are, in turn, tied to lack of well-defined bounds for numerical estimation of MI for continuous probability distributions from finite data. The nature and properties of the inevitable bias is described, complemented by several examples illustrating their form and variation. We propose an adaptive partitioning scheme for MI estimation that effectively transforms the sample data using parameters determined from its local and global distribution guaranteeing a more robust and reliable reconstruction algorithm. Together with a normalized measure (Shared Information Metric) we report considerably enhanced performance both for in silico and real-world biological networks. We also find that the recovery of true interactions is in particular better for intermediate range of false positive rates, suggesting that our algorithm is less vulnerable to spurious signals of association.

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基于信息理论的自适应输入数据转换改进网络重构算法。
在网络逆向工程的背景下,我们提出了一种新的系统的非线性数据转换的自适应算法。我们的方法是植根于阐明和纠正特定的偏差估计技术的互信息(MI)给定有限的数据样本。反过来,这些问题与从有限数据中对连续概率分布的MI的数值估计缺乏明确定义的界限有关。本文描述了这种不可避免的偏误的性质和特性,并举例说明了它们的形式和变化。我们提出了一种用于MI估计的自适应划分方案,该方案利用样本数据的局部和全局分布确定的参数有效地转换样本数据,保证了更鲁棒和可靠的重建算法。与标准化度量(共享信息度量)一起,我们报告了计算机和现实世界生物网络的显著增强的性能。我们还发现,对于假阳性率的中间范围,真实交互的恢复尤其好,这表明我们的算法不太容易受到虚假关联信号的影响。
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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