A Particle Swarm Optimized Functional Link Artificial Neural Network (PSO-FLANN) in Software Cost Estimation
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Publisher
Springer Berlin Heidelberg
Link
http://link.springer.com/content/pdf/10.1007/978-3-642-35314-7_8
Reference15 articles.
1. Araújo, R., de, A., Oliveira, A.L.I., Soares, S.: A shift-invariant morphological system for software development cost estimation. Expert Systems with Applications 38, 4162–4168 (2011)
2. Braga, P.L., Oliveira, A.L.I., Ribeiro, G.H.T., Meira, S.R.L.: Software effort estimation using machine learning techniques with robust confidence intervals. In: IEEE International Conference on Tools with Artificial Intelligence (ICTAI) (2007)
3. Dehuri, S., Roy, R., Cho, S.-B., Ghosh, A.: An Improved Swarm Optimized functional link artificial neural network (ISO-FLANN) for Clasification. J. Syst. Software 85(6) (2012)
4. Foss, T., Stensrud, E., Kitchenham, B., Myrtveit, I.: A simulation study of themodel evaluation criterion MMRE. IEEE Transactions on Software Engineering 29(11) (2003)
5. Huang, S.J., Chiu, N.H.: Optimization of analogy weights by genetic algorithm for software effort estimation. Information and Software Technology 48, 1034–1045 (2006)
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