Book contents
7 - Extensions
Published online by Cambridge University Press: 22 September 2009
Summary
This chapter describes two complementary extensions to memory-based learning: a search method for optimizing parameter settings, and methods for reducing the near-sightedness of the standard memory-based learner to its own contextual decisions in sequence processing tasks. Both complement the core algorithm as we have been discussing so far. Both methods have a wider applicability than just memory-based learning, and can be combined with any classification-based supervised learning algorithm.
First, in section 7.1 we introduce a search method for finding optimal algorithmic parameter settings. No universal rules of thumb exist for setting parameters such as the k in the k-NN classification rule, or the feature weighting metric, or the distance weighting metric. They also interact in unpredictable ways. Yet, parameter settings do matter; they can seriously change generalization performance on unseen data. We show that applying heuristic search methods in an experimental wrapping environment (in which a training set is further divided into training and validation sets) can produce good parameter settings automatically.
Second, in section 7.2 we describe two technical solutions to the problem of “sequence near-sightedness” from which many machine-learning classifiers and stochastic models suffer that predict class symbols without coordinating one prediction with another in some way. When such a classifier is performing natural language sequence tasks, producing class symbol by class symbol, it is unable to stop itself from generating output sequences that are impossible and invalid, because information on the output sequence being generated is not available to the learner.
- Type
- Chapter
- Information
- Memory-Based Language Processing , pp. 148 - 167Publisher: Cambridge University PressPrint publication year: 2005