Extracting rules from neural networks as decision diagrams.

IEEE transactions on neural networks Pub Date : 2011-12-01 Epub Date: 2011-02-17 DOI:10.1109/TNN.2011.2106163
Jan Chorowski, Jacek M Zurada
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引用次数: 52

Abstract

Rule extraction from neural networks (NNs) solves two fundamental problems: it gives insight into the logic behind the network and in many cases, it improves the network's ability to generalize the acquired knowledge. This paper presents a novel eclectic approach to rule extraction from NNs, named LOcal Rule Extraction (LORE), suited for multilayer perceptron networks with discrete (logical or categorical) inputs. The extracted rules mimic network behavior on the training set and relax this condition on the remaining input space. First, a multilayer perceptron network is trained under standard regime. It is then transformed into an equivalent form, returning the same numerical result as the original network, yet being able to produce rules generalizing the network output for cases similar to a given input. The partial rules extracted for every training set sample are then merged to form a decision diagram (DD) from which logic rules can be extracted. A rule format explicitly separating subsets of inputs for which an answer is known from those with an undetermined answer is presented. A special data structure, the decision diagram, allowing efficient partial rule merging is introduced. With regard to rules' complexity and generalization abilities, LORE gives results comparable to those reported previously. An algorithm transforming DDs into interpretable boolean expressions is described. Experimental running times of rule extraction are proportional to the network's training time.

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从神经网络中提取规则作为决策图。
从神经网络(nn)中提取规则解决了两个基本问题:它提供了对网络背后逻辑的洞察,在许多情况下,它提高了网络对所获得知识的泛化能力。本文提出了一种新的从神经网络中提取规则的折衷方法,称为局部规则提取(LORE),适用于具有离散(逻辑或分类)输入的多层感知器网络。提取的规则在训练集上模拟网络行为,并在剩余的输入空间上放宽这一条件。首先,在标准状态下训练多层感知器网络。然后将其转换为等效形式,返回与原始网络相同的数值结果,同时能够为类似于给定输入的情况生成一般化网络输出的规则。然后将每个训练集样本提取的部分规则合并形成决策图(DD),从中提取逻辑规则。提出了一种规则格式,显式地将已知答案的输入子集与未确定答案的输入子集分开。介绍了一种特殊的数据结构——决策图,它允许有效的部分规则合并。在规则的复杂性和泛化能力方面,LORE给出的结果与之前报道的结果相当。描述了一种将dd转换为可解释布尔表达式的算法。规则提取的实验运行时间与网络的训练时间成正比。
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来源期刊
IEEE transactions on neural networks
IEEE transactions on neural networks 工程技术-工程:电子与电气
自引率
0.00%
发文量
2
审稿时长
8.7 months
期刊最新文献
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