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A benchmarking framework using nonlinear manifold detection techniques for software defect prediction

Vineet Kansal, Soumi Ghosh, Ajay Rana

2020International Journal of Computational Science and Engineering12 citationsDOI

Abstract

Prediction of software defects in time improves quality and helps in locating the defect-prone areas accurately. Although earlier considerable methods were applied, actually none of those measures was found to be fool-proof and accurate. Hence, a newer framework includes nonlinear manifold detection model, and its algorithm originated for defect prediction using different techniques of nonlinear manifold detection (nonlinear MDs) along with 14 different machine learning techniques (MLTs) on eight defective software datasets. A critical analysis cum exhaustive comparative estimation revealed that nonlinear manifold detection model has a more accurate and effective impact on defect prediction as compared to feature selection techniques. The outcome of the experiment was statistically tested by Friedman and post hoc analysis using Nemenyi test, which validates that hidden Markov model (HMM) along with nonlinear manifold detection model outperforms and is significantly different from MLTs.

Topics & Concepts

Manifold (fluid mechanics)Nonlinear systemComputer scienceArtificial intelligenceBenchmarkingNonlinear dimensionality reductionSoftwareHidden Markov modelPattern recognition (psychology)Manifold alignmentMachine learningDimensionality reductionEngineeringPhysicsMechanical engineeringProgramming languageQuantum mechanicsBusinessMarketingSoftware Engineering ResearchSoftware Reliability and Analysis ResearchSoftware System Performance and Reliability
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