The current availability of efficient algorithms for decision tree induction makes intricate post-processing tech- niques worth to be investigated both for eciency and effectiveness. We study the simplification operator of subtree replacement, also known as grafting, originally implemented in the C4.5 system. We present a parametric bottom-up algorithm integrating grafting with the standard pruning operator, and analyze its complexity in terms of the number of nodes visited. Immediate instances of the parametric algorithm include extensions of error based, reduced error, minimum error, and pessimistic error pruning. Experimental results show that the computational cost of grafting is paid of by statis- tically significant smaller trees without accuracy loss.
Subtree replacement in decision tree simplication
Ruggieri S
2012
Abstract
The current availability of efficient algorithms for decision tree induction makes intricate post-processing tech- niques worth to be investigated both for eciency and effectiveness. We study the simplification operator of subtree replacement, also known as grafting, originally implemented in the C4.5 system. We present a parametric bottom-up algorithm integrating grafting with the standard pruning operator, and analyze its complexity in terms of the number of nodes visited. Immediate instances of the parametric algorithm include extensions of error based, reduced error, minimum error, and pessimistic error pruning. Experimental results show that the computational cost of grafting is paid of by statis- tically significant smaller trees without accuracy loss.File | Dimensione | Formato | |
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