Quasi-Optimal Case-Selective Neural Network Model for Software Effort Estimation
A number of software effort estimations have attempted using statistical models, case based reasoning, and neural networks. The research results showed that the neural network models perform at least as well as the other approaches, so we selected the neural network model as the estimator. However, since the computing environment changes so rapidly in terms of programming languages, development tools, and methodologies, it is very difficult to maintain the performance of estimation models for the new breed of projects. Therefore, we propose a search method that finds the right level of relevant cases for the neural network model. For the selected case set, the scale of the neural network model can be reduced by eliminating the qualitative input factors with the same values. Since there exist a multitude of combinations of case sets, we need to search for the optimal reduced neural network model and corresponding case set. To find the quasi-optimal model from the hierarchy of reduced neural network models, we adopted the beam search technique and devised the case-set selection algorithm. We have shown that the resulting model significantly outperforms the original full model for the software effort estimation. This approach can be also used for building any case-selective neural network.
Software effort estimation, Reduced neural network model, Case set hierarchy, Beam search, Sensitivity of beam width, Case-set selection algorithm
Computer Sciences | Management Information Systems
Information Systems and Management
Expert Systems with Applications
JUN, Eung Sup and LEE, Jae Kyu.
Quasi-Optimal Case-Selective Neural Network Model for Software Effort Estimation. (2001). Expert Systems with Applications. 21, (1), 1-14. Research Collection School Of Information Systems.
Available at: http://ink.library.smu.edu.sg/sis_research/1154