A holistic approach to software fault prediction with dynamic classification

IF 2 2区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Automated Software Engineering Pub Date : 2024-09-04 DOI:10.1007/s10515-024-00467-4
S. Kaliraj, Velisetti Geetha Pavan Sahasranth, V. Sivakumar
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Abstract

Software Fault Prediction is a critical domain in machine learning aimed at pre-emptively identifying and mitigating software faults. This study addresses challenges related to imbalanced datasets and feature selection, significantly enhancing the effectiveness of fault prediction models. We mitigate class imbalance in the Unified Dataset using the Random-Over Sampling technique, resulting in superior accuracy for minority-class predictions. Additionally, we employ the innovative Ant-Colony Optimization algorithm (ACO) for feature selection, extracting pertinent features to amplify model performance. Recognizing the limitations of individual machine learning models, we introduce the Dynamic Classifier, a ground-breaking ensemble that combines predictions from multiple algorithms, elevating fault prediction precision. Model parameters are fine-tuned using the Grid-Search Method, achieving an accuracy of 94.129% and superior overall performance compared to random forest, decision tree and other standard machine learning algorithms. The core contribution of this study lies in the comparative analysis, pitting our Dynamic Classifier against Standard Algorithms using diverse performance metrics. The results unequivocally establish the Dynamic Classifier as a frontrunner, highlighting its prowess in fault prediction. In conclusion, this research introduces a comprehensive and innovative approach to software fault prediction. It pioneers the resolution of class imbalance, employs cutting-edge feature selection, and introduces dynamic ensemble classifiers. The proposed methodology, showcasing a significant advancement in performance over existing methods, illuminates the path toward developing more accurate and efficient fault prediction models.

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利用动态分类进行软件故障预测的整体方法
软件故障预测是机器学习中的一个重要领域,旨在先发制人地识别和缓解软件故障。本研究解决了与不平衡数据集和特征选择相关的难题,显著提高了故障预测模型的有效性。我们利用随机抽样技术缓解了统一数据集中的类不平衡问题,从而提高了少数类预测的准确性。此外,我们还采用创新的蚁群优化算法(ACO)进行特征选择,提取相关特征以提高模型性能。由于认识到单个机器学习模型的局限性,我们引入了动态分类器,这是一种开创性的集合,它结合了多种算法的预测结果,提高了故障预测精度。模型参数通过网格搜索法进行微调,准确率达到 94.129%,整体性能优于随机森林、决策树和其他标准机器学习算法。本研究的核心贡献在于对比分析,使用各种性能指标将我们的动态分类器与标准算法进行对比。结果毫不含糊地确立了动态分类器的领先地位,凸显了其在故障预测方面的优势。总之,这项研究为软件故障预测引入了一种全面的创新方法。它率先解决了类不平衡问题,采用了最先进的特征选择技术,并引入了动态集合分类器。与现有方法相比,所提出的方法在性能上有了显著提高,为开发更准确、更高效的故障预测模型指明了方向。
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来源期刊
Automated Software Engineering
Automated Software Engineering 工程技术-计算机:软件工程
CiteScore
4.80
自引率
11.80%
发文量
51
审稿时长
>12 weeks
期刊介绍: This journal details research, tutorial papers, survey and accounts of significant industrial experience in the foundations, techniques, tools and applications of automated software engineering technology. This includes the study of techniques for constructing, understanding, adapting, and modeling software artifacts and processes. Coverage in Automated Software Engineering examines both automatic systems and collaborative systems as well as computational models of human software engineering activities. In addition, it presents knowledge representations and artificial intelligence techniques applicable to automated software engineering, and formal techniques that support or provide theoretical foundations. The journal also includes reviews of books, software, conferences and workshops.
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