A Software Fault Prediction on Inter- and Intra-Release Prediction Scenarios

Q4 Computer Science

International Journal of Open Source Software and Processes Pub Date : 2021-10-01 DOI:10.4018/ijossp.287611

A. Mishra, Meenu Singla

引用次数: 0

Abstract

Software quality engineering applied numerous techniques for assuring the quality of software, namely testing, verification, validation, fault tolerance, and fault prediction of the software. The machine learning techniques facilitate the identification of software modules as faulty or non-faulty. In most of the research, these approaches predict the fault-prone module in the same release of the software. Although, the model is found to be more efficient and validated when training and tested data are taken from previous and subsequent releases of the software respectively. The contribution of this paper is to predict the faults in two scenarios i.e. inter and intra release prediction. The comparison of both intra and inter-release fault prediction by computing various performance matrices using machine learning methods shows that intra-release prediction is having better accuracy compared to inter-releases prediction across all the releases. Also, but both the scenarios achieve good results in comparison to existing research work.

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基于版本间和版本内预测场景的软件故障预测

软件质量工程应用了许多技术来保证软件的质量，即软件的测试、验证、确认、容错和故障预测。机器学习技术有助于识别故障或非故障的软件模块。在大多数研究中，这些方法预测同一个软件版本中的易故障模块。尽管如此，当训练数据和测试数据分别来自软件的先前和后续版本时，发现该模型更加有效和有效。本文的贡献是在断层释放预测和断层释放内预测两种情况下对断层进行预测。利用机器学习方法计算各种性能矩阵，对版本内和版本间故障预测进行比较，结果表明，在所有版本中，版本内预测比版本间预测具有更好的准确性。而且，与现有的研究工作相比，这两种情况都取得了很好的结果。

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

International Journal of Open Source Software and Processes Computer Science-Software

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The International Journal of Open Source Software and Processes (IJOSSP) publishes high-quality peer-reviewed and original research articles on the large field of open source software and processes. This wide area entails many intriguing question and facets, including the special development process performed by a large number of geographically dispersed programmers, community issues like coordination and communication, motivations of the participants, and also economic and legal issues. Beyond this topic, open source software is an example of a highly distributed innovation process led by the users. Therefore, many aspects have relevance beyond the realm of software and its development. In this tradition, IJOSSP also publishes papers on these topics. IJOSSP is a multi-disciplinary outlet, and welcomes submissions from all relevant fields of research and applying a multitude of research approaches.