An Algorithmic Approach to Missing Data Problem in Modeling Human Aspects in Software Development

Calikli, G. and Bener, A. (2013) An Algorithmic Approach to Missing Data Problem in Modeling Human Aspects in Software Development. In: 9th International Conference on Predictive Models in Software Engineering (PROMISE '13), Baltimore, MD, USA, 09 Oct 2013, p. 10. ISBN 9781450320160 (doi: 10.1145/2499393.2499398)

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Background: In our previous research, we built defect prediction models by using confirmation bias metrics. Due to confirmation bias developers tend to perform unit tests to make their programs run rather than breaking their code. This, in turn, leads to an increase in defect density. The performance of prediction model that is built using confirmation bias was as good as the models that were built with static code or churn metrics. Aims: Collection of confirmation bias metrics may result in partially "missing data" due to developers' tight schedules, evaluation apprehension and lack of motivation as well as staff turnover. In this paper, we employ Expectation-Maximization (EM) algorithm to impute missing confirmation bias data. Method: We used four datasets from two large-scale companies. For each dataset, we generated all possible missing data configurations and then employed Roweis' EM algorithm to impute missing data. We built defect prediction models using the imputed data. We compared the performances of our proposed models with the ones that used complete data. Results: In all datasets, when missing data percentage is less than or equal to 50% on average, our proposed model that used imputed data yielded performance results that are comparable with the performance results of the models that used complete data. Conclusions: We may encounter the "missing data" problem in building defect prediction models. Our results in this study showed that instead of discarding missing or noisy data, in our case confirmation bias metrics, we can use effective techniques such as EM based imputation to overcome this problem.

Item Type:Conference Proceedings
Glasgow Author(s) Enlighten ID:Calikli, Dr Handan Gul
Authors: Calikli, G., and Bener, A.
College/School:College of Science and Engineering > School of Computing Science

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