基于邻域对比学习的图神经网络用于错误分拣

IF 1.5 4区计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Science of Computer Programming Pub Date : 2024-02-20 DOI:10.1016/j.scico.2024.103093

Haozhen Dong, Hongmin Ren, Jialiang Shi, Yichen Xie, Xudong Hu

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引用次数: 0

摘要

研究人员一直在利用来自错误跟踪系统的错误信息开发自动错误分流技术。最近的研究将错误与开发人员的关系建模为一个图，并引入图神经网络进行错误分流。尽管取得了积极的成果，但这些方法忽略了与数据稀疏性相关的问题，也未能充分利用图中的隐含关系。为了应对这些挑战，我们提出了基于邻域对比学习的图神经网络错误分拣框架，简称 NCGBT。我们的方法将错误和开发人员之间的关系建模为双向图。我们利用预先训练好的语言模型来获取错误节点的初始表示。我们采用基本的图神经网络框架，学习所有节点的表示，并利用这些表示来预测给定错误的开发者。我们提出的策略涉及应用于基本图神经网络方法的邻域对比学习。我们从结构和语义两个角度考虑节点的邻域，将其作为对比对象加以利用。在三个公共数据集上进行的广泛实验证明了 NCGBT 框架的有效性。

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Neighborhood contrastive learning-based graph neural network for bug triaging

Researchers have been developing automatic bug triaging techniques by leveraging bug information sourced from bug tracking systems. Recent studies have modeled the bug-developer relationship as a graph, introducing graph neural networks for bug triaging. Despite achieving positive outcomes, these methods overlook issues related to data sparsity and fail to fully exploit implicit relationships within the graph. In addressing these challenges, we present the Neighborhood Contrastive Learning-based Graph Neural Network Bug Triaging framework, abbreviated as NCGBT. Our approach models the relationship between bugs and developers as a bipartite graph. We utilize a pre-trained language model to acquire the initial representation of bug nodes. Employing a basic graph neural network framework, we learn the representation of all nodes and leverage these representations to predict developers for a given bug. Our proposed strategy involves neighborhood contrastive learning applied to the basic graph neural network approach. We take into account the neighbors of nodes from both structural and semantic perspectives, utilizing them as contrastive objects. Extensive experiments conducted on three public datasets demonstrate the effectiveness of the NCGBT framework.

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来源期刊

Science of Computer Programming 工程技术-计算机：软件工程

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

67 days

期刊介绍： Science of Computer Programming is dedicated to the distribution of research results in the areas of software systems development, use and maintenance, including the software aspects of hardware design. The journal has a wide scope ranging from the many facets of methodological foundations to the details of technical issues andthe aspects of industrial practice. The subjects of interest to SCP cover the entire spectrum of methods for the entire life cycle of software systems, including • Requirements, specification, design, validation, verification, coding, testing, maintenance, metrics and renovation of software; • Design, implementation and evaluation of programming languages; • Programming environments, development tools, visualisation and animation; • Management of the development process; • Human factors in software, software for social interaction, software for social computing; • Cyber physical systems, and software for the interaction between the physical and the machine; • Software aspects of infrastructure services, system administration, and network management.