Gary M. Weiss Alexander Battistin Fordham University.

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Presentation transcript:

Gary M. Weiss Alexander Battistin Fordham University

Motivation  Classification performance related to amount of training data  Relationship visually represented by learning curve  Performance increases steeply at first  Slope begins to decrease with adequate training data  Slope approaches 0 as more data barely helps  Training data often costly  Cost of collecting or labeling  “Good” learning curves can help identify optimal amount of data 7/22/ DMIN 2014

Exploiting Learning Curves  In practice will only have learning curve up to current number of examples when deciding on whether to acquire more  Need to predict performance for larger sizes  Can do iteratively and acquire in batches  Can even use curve fitting  Works best if learning curves are well behaved  Smooth and regular 7/22/ DMIN 2014

Prior Work Using Learning Curves  Provost, Jensen and Oates 1 evaluated progressive sampling schemes to identify point where learning curves begin to plateau  Weiss and Tian 2 examined how learning curves can be used to optimize learning when performance, acquisition costs, and CPU time are considered  “Because the analyses are all driven by the learning curves, any method for improving the quality of the learning curves (i.e., smoothness, monotonicity) would improve the quality of our results, especially the effectiveness of the progressive sampling strategies.” 1 Provost, F., Jensen, D., and Oates, T. (1999).Efficient progressive sampling. In Proc. 5 th Int. Conference on knowledge Discovery & Data Mining, Weiss, G.,M., and Tian, Y Maximizing classifier utility when there are data acquisition and modeling costs. Data Mining and Knowledge Discovery, 17(2): /22/ DMIN 2014

What We Do  Generate learning curves for six data sets  Different classification algorithms  Random sampling and cross validation  Evaluate curves  Visually for smoothness and monotonicity  “Variance” of the learning curve 7/22/ DMIN 2014

The Data Sets Name# ExamplesClasses# Attributes Adult32, Coding20, Blackjack15,00024 Boa111, Kr-vs-kp3, Arrhythmia /22/2014DMIN

Experiment Methodology  Sampling strategies  10-fold cross validation: 90% available for training  Random sampling: 75% available for training  Training set sizes sampled at regular 2% intervals of available data  Classification algorithms (from WEKA)  J48 Decision Tree  Random Forest  Naïve Bayes 7/22/2014DMIN

Results: Accuracy DatasetJ48Random Forest Naïve Bayes Adult Coding Blackjack Boa Kr-vs-kp Arrhythmia Average /22/2014DMIN Accuracy is not our focus, but a well behaved learning curve for a method that produces poor results is not useful. These results are for the largest training set size (no reduction) J48 and Random Forest are competitive so we will focus on them

Results: Variances DatasetJ48Random Forest Naïve Bayes Adult Coding Blackjack Boa Kr-vs-kp Arrhythmia /22/2014DMIN Variance for a curve equals average variance in performance for each evaluated training set size. The results are for 10- fold cross validation. Naïve Bayes is best followed by J48. But Naïve Bayes had low accuracy (see previous slide)

J48 Learning Curves (10 xval) 7/22/2014DMIN

Random Forest Learning Curves 7/22/2014DMIN

Naïve Bayes Learning Curves 7/22/2014DMIN

Closer Look at J48 and RF (Adult) 7/22/2014DMIN

A Closer Look at J48 and RF (kr-vs-kp) 7/22/2014DMIN

Closer Look at J48 and RF (Arrhythmia) 7/22/2014DMIN

Now lets compare cross validation to Random Sampling, which we find generates less well behaved curves 7/22/2014DMIN Curves used Cross validation

J48 Learning Curves (Blackjack Data Set) 7/22/2014DMIN

RF Learning Curves (Blackjack Data Set) 7/22/2014DMIN

Conclusions  Introduced the notion of well-behaved learning curves and methods for evaluating this property  Naïve Bayes seemed to produce much smoother curves, but less accurate  Low variance may be because they consistently reach a plateau early  J48 and Random Forest seem reasonable  Need more data sets to determine which is best  Cross validation clearly generates better curves than random sampling (less randomness?) 7/22/2014DMIN

Future Work  Need more comprehensive evaluation  Many more data sets  Compare more algorithms  Additional metrics  Count number of drops in performance with greater size (i.e., “blips”). Need better summary metric.  Vary number of runs. More runs almost certainly yields smoother learning curves.  Evaluate in context  Ability to identify optimal learning point  Ability to identify plateau (based on some criterion) 7/22/2014DMIN

If Interested in This Area Provost, F., Jensen, D., and Oates, T. (1999).Efficient progressive sampling. In Proc. 5 th Int. Conference on knowledge Discovery & Data Mining, Weiss, G.,M., and Tian, Y Maximizing classifier utility when there are data acquisition and modeling costs. Data Mining and Knowledge Discovery, 17(2):  Contact me if you want to work on expanding this paper 7/22/2014DMIN