Learning internal representations by error propagation
Parallel distributed processing: explorations in the microstructure of cognition, vol. 1
A practical Bayesian framework for backpropagation networks
Neural Computation
Floating search methods in feature selection
Pattern Recognition Letters
Feature Selection: Evaluation, Application, and Small Sample Performance
IEEE Transactions on Pattern Analysis and Machine Intelligence
A Comparative Study of Feature-Salience Ranking Techniques
Neural Computation
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This paper addresses the problem of feature subset selection for classification tasks. In particular, it focuses on the initial stages of complex real-world classification tasks when feature interaction is expected but illunderstood, and noise contaminating actual feature vectors must be expected to further complicate the classification problem. A neural-network based feature-ranking technique, the 'clamping' technique, is proposed as a robust and effective basis for feature selection that is more efficient than the established comparable techniques of sequential floating searches. The efficiency gain is that of an Order(n) algorithm over the Order(n2) floating search techniques. These claims are supported by an empirical study of a complex classification task.