利用基于监督学习的框架增强软件缺陷预测

2017 12th International Conference on Intelligent Systems and Knowledge Engineering (ISKE) Pub Date : 2017-11-01 DOI:10.1109/ISKE.2017.8258790

Kamal Bashir, Tianrui Li, Chubato Wondaferaw Yohannese, M. Yahaya

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引用次数: 21

摘要

软件缺陷预测(SDP)提出通过使用缺陷数据和软件度量建立预测模型来定义软件的缺陷暴露，并使用几种学习算法来帮助识别潜在的错误程序模块，从而导致最佳的资源分配和利用。然而，数据质量和分类器的鲁棒性影响了这些分类模型的预测准确性，这些模型受到数据质量的影响，如高维数、类不平衡和软件缺陷数据集中存在噪声。本文提出了一个增强SDP模型的组合框架，其中我们分别使用秩特征选择(FS)技术、数据采样(DS)技术和迭代分割滤波(IPF)技术来克服高维、类不平衡和噪声问题。实验结果验证了该框架对SDP的有效性。

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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Enhancing software defect prediction using supervised-learning based framework

Software Defect Prediction (SDP) proposes to define the exposure of software to defect by building prediction models through using defect data and the software metrics with several learning algorithms which aid in identifying potentially faulty program modules, thus leading to optimal resource allocation and utilization. However, the quality of data and robustness of classifiers affect the accuracy of prediction for these models of classification compromised by data quality such as high dimensionality, class imbalance and the presence of noise in the software defect datasets. This paper presents a combined framework to enhance SDP models in which we use ranker Feature Selection (FS) techniques, Data Sampling (DS) and Iterative-Partition Filter (IPF) to defeat high dimensionality, class imbalance and noisy, respectively. The experimental results confirm that the proposed framework is effective for SDP.

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2017 12th International Conference on Intelligent Systems and Knowledge Engineering (ISKE)

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