Title :
Using Reconstructability Analysis for Input Variable Reduction: A Business Example
Author :
Shervais, Stephen ; Zwick, Martin
Author_Institution :
Eastern Washington Univ., Cheney
Abstract :
We demonstrate the use of reconstructability analysis (RA) on the UCI Australian Credit dataset to reduce the number of input variables for two different analysis tools. Using 14 variables, an artificial neural net (NN) is able to predict whether or not credit was granted, with a 79.1% success rate. RA preprocessing allows us to reduce the number of independent variables from 14 to two different sets of three, which have success rates of 77.2% and 76.9% respectively. The difference between these rates and that of the 14-variable NN is not statistically significant. The three-variable rulesets given by RA achieve success rates of 77.8% and 79.7%. Again, the difference between those values and the 14-variable NN is not statistically significant, that is, our approach provides a three-variable model that is competitive with the 14-variable equivalent.
Keywords :
credit transactions; data reduction; learning (artificial intelligence); pattern classification; RA preprocessing; UCI Australian Credit dataset; artificial neural net; industry-standard classification problem; input variable reduction; machine learning; reconstructability analysis; Artificial neural networks; Australia; Frequency; Input variables; Neural networks; Predictive models; Probability; Reactive power; Table lookup; Testing;
Conference_Titel :
Information Reuse and Integration, 2007. IRI 2007. IEEE International Conference on
Conference_Location :
Las Vegas, IL
Print_ISBN :
1-4244-1500-4
Electronic_ISBN :
1-4244-1500-4
DOI :
10.1109/IRI.2007.4296675
