Prediction of software engineering variables with high accuracy is still an open problem. The primary reason for the lack of high accuracy in prediction might be because most models are linear in the parameters and so are not sufficiently flexible and suffer from redundancy. In this chapter, we focus on improving regression models by decreasing their redundancy and increasing their parsimony, i.e., we turn the model into a model with fewer variables than the former. We present an empirical auto-associative neural network-based strategy for model improvement, which implements a reduction technique called Curvilinear component analysis. The contribution of this chapter is to show how multi-layer feedforward neural networks can be a useful and practical mechanism for improving software engineering estimation models.
Sarcia’, S., Cantone, G., Basili, V. (2009). Auto-associative neural networks to estimate accuracy of estimation models. In Farid Meziane and Sunil Valeda (a cura di), Artificial intelligence applications for improved software engineering development: new prospects (pp. 66-81). IGI Global [10.4018/978-1-60566-758-4].
Auto-associative neural networks to estimate accuracy of estimation models
CANTONE, GIOVANNI;
2009-01-01
Abstract
Prediction of software engineering variables with high accuracy is still an open problem. The primary reason for the lack of high accuracy in prediction might be because most models are linear in the parameters and so are not sufficiently flexible and suffer from redundancy. In this chapter, we focus on improving regression models by decreasing their redundancy and increasing their parsimony, i.e., we turn the model into a model with fewer variables than the former. We present an empirical auto-associative neural network-based strategy for model improvement, which implements a reduction technique called Curvilinear component analysis. The contribution of this chapter is to show how multi-layer feedforward neural networks can be a useful and practical mechanism for improving software engineering estimation models.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
