Bug priority prediction using deep ensemble approach

IF 7.2 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Applied Soft Computing Pub Date : 2025-03-29 DOI:10.1016/j.asoc.2025.113098

P.G.S.M. Dharmakeerthi , R.A.H.M. Rupasingha , B.T.G.S. Kumara

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引用次数: 0

Abstract

A software bug is a fault in the programming of software or an application. Bugs cause problems ranging from stability to operability and are typically the result of human error during the programming process. They could be the result of a mistake or error, as well as a fault or defect. Software bugs should be discovered during the testing stage of the software development life cycle, but some may go undetected until after deployment. When addressing a bug, it is critical to consider its priority, which is determined manually. However, it was a difficult task, and making the wrong decision could lead to major software failures. Therefore, the primary goal of this study is to propose an ensemble approach for predicting bug priority levels in bug reports. We make use of Bugzilla's dataset, which includes over 25,000 bug reports. After preprocessing the data, this study applies a variety of feature extraction techniques, including Glove, Word2Vec TF-IDF, and Doc2Vec. Then, a model that primarily employs seven architectures of Convolutional Neural Network (CNN) Algorithms, including AlexNet, LeNet, VGGNet, 1DCNN, ResNet, ZF Net, and DenseNet as the basic models. The five architectures with the highest accuracy were then used in the ensemble method, which included ResNet, DenseNet, LeNet, AlexNet, and 1DCNN, with the final results determined by the majority values. The ensemble approach performed with 79.18 % of the final accuracy result. Other architectures include AlexNet 77.1 %, ZF Net 44.50 %, VGG Net 39.30 %, 1DCNN 75.44 %, ResNet 77.34 %, DenseNet 77.32 %, and LeNet 48.58 %. It was discovered that the proposed ensemble model outperformed each algorithm. Finally, when a new bug is discovered, it can be added to the proposed model, which will then determine its priority level.

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使用深度集合方法预测错误优先级

软件bug是软件或应用程序编程中的错误。bug会导致从稳定性到可操作性的各种问题，并且通常是编程过程中人为错误的结果。它们可能是错误或错误的结果，也可能是错误或缺陷的结果。软件bug应该在软件开发生命周期的测试阶段被发现，但有些bug可能直到部署之后才被发现。在处理bug时，考虑它的优先级是至关重要的，这是手动确定的。然而，这是一项艰巨的任务，做出错误的决定可能会导致重大的软件故障。因此，本研究的主要目标是提出一种集成方法来预测bug报告中的bug优先级。我们使用Bugzilla的数据集，其中包括超过25,000个bug报告。本研究在对数据进行预处理后，采用了Glove、Word2Vec TF-IDF、Doc2Vec等多种特征提取技术。然后，主要采用卷积神经网络（CNN）算法的AlexNet、LeNet、VGGNet、1DCNN、ResNet、ZF Net、DenseNet等7种架构作为基本模型建立模型。然后在集成方法中使用精度最高的5个体系结构，包括ResNet、DenseNet、LeNet、AlexNet和1DCNN，最终结果由多数值决定。集成方法的最终准确率为79.18 %。其他架构包括AlexNet 77.1 %,ZF Net 44.50 %,VGG Net 39.30 %,1DCNN 75.44 %,ResNet 77.34 %,DenseNet 77.32 %和LeNet 48.58 %。结果表明，所提集成模型的性能优于各算法。最后，当发现一个新的错误时，可以将其添加到建议的模型中，然后该模型将确定其优先级级别。

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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来源期刊

Applied Soft Computing 工程技术-计算机：跨学科应用

CiteScore

15.80

自引率

6.90%

发文量

874

审稿时长

10.9 months

期刊介绍： Applied Soft Computing is an international journal promoting an integrated view of soft computing to solve real life problems.The focus is to publish the highest quality research in application and convergence of the areas of Fuzzy Logic, Neural Networks, Evolutionary Computing, Rough Sets and other similar techniques to address real world complexities. Applied Soft Computing is a rolling publication: articles are published as soon as the editor-in-chief has accepted them. Therefore, the web site will continuously be updated with new articles and the publication time will be short.