Abstract
Decision-tree algorithms provide one of the most popular methodologies for symbolic knowledge acquisition. The resulting knowledge, a symbolic decision tree along with a simple inference mechanism, has been praised for comprehensibility. The most comprehensible decision trees have been designed for perfect symbolic data. Over the years, additional methodologies have been investigated and proposed to deal with continuousor multi-valueddata, and with missing or noisy features. Recently, with the growing popularity of fuzzy representation, a few researchers independently have proposed to utilize fuzzy representation in decision trees to deal with similar situations. Fuzzy representation bridges the gap between symbolic and non-symbolic data by linking qualitatitive linguistic terms with quantitative data. In this paper, we overview our fuzzy decision tree and propose a few new inferences based on exemplar learning
Original language | American English |
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Journal | IEEE International Conference on Fuzzy Systems |
Volume | 2 |
DOIs | |
State | Published - Jan 1 1996 |
Disciplines
- Computer Sciences
- Artificial Intelligence and Robotics