Using Semantic Analysis and Graph Mining Approaches to Support Software Fault Fixation

2020 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW) Pub Date : 2020-10-01 DOI:10.1109/ISSREW51248.2020.00035

Maninder Singh, G. Walia

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引用次数: 2

Abstract

Software requirement specification (SRS) documents are written in natural language (NL) and are prone to contain faults due to the inherently ambiguous nature of NL. Inspections are employed to find and fix these faults during the early phases of development, where these are the most cost-effective to fix. Inspections being too manual are very tedious and time consuming to perform. After fixing a fault, the SRS author has to manually re-inspect the document to make sure if there are other similar requirements that need a fix, and also if fixing a fault does not reintroduce another fault in the document (i.e., change impact analysis). The proposed approach in this paper employs NL processing, machine learning, semantic analysis, and graph mining approaches to generate a graph of inter-related requirements (IRR) based on semantic similarity score. The IRR graph is next mined using graph mining approaches to analyze the impact of a change. Our approach when applied using a real SRS generated IRR and yielded promising results. Graph mining approaches resulted in a G-mean of more than 90% to accurately identify the highly similar requirements to support the CIA.

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使用语义分析和图挖掘方法支持软件故障定位

软件需求规范(SRS)文档是用自然语言(NL)编写的，由于自然语言固有的模糊性，SRS文档容易包含错误。在开发的早期阶段，使用检查来查找和修复这些错误，在这些阶段，修复这些错误是最经济有效的。过于手工的检查是非常繁琐和耗时的。在修复了一个故障之后，SRS作者必须手动重新检查文档，以确保是否有其他类似的需求需要修复，以及修复一个故障是否不会在文档中重新引入另一个故障(即，更改影响分析)。本文提出的方法采用自然语言处理、机器学习、语义分析和图挖掘方法来生成基于语义相似度评分的相互关联需求图(IRR)。接下来使用图挖掘方法挖掘IRR图，以分析变更的影响。我们的方法在使用真实的SRS时产生了IRR并产生了有希望的结果。图挖掘方法的g均值超过90%，可以准确识别支持CIA的高度相似的需求。

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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2020 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW)

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