Abstract
Statistical learning and probabilistic prediction are fundamental processes in auditory cognition. A prominent computational model of these processes is Prediction by Partial Matching (PPM), a variable-order Markov model that learns by internalizing n-grams from training sequences. However, PPM has limitations as a cognitive model: in particular, it has a perfect memory that weights all historic observations equally, which is inconsistent with memory capacity constraints and recency effects observed in human cognition. We address these limitations with PPM-Decay, a new variant of PPM that introduces a customizable memory decay kernel. In three studies-one with artificially generated sequences, one with chord sequences from Western music, and one with new behavioral data from an auditory pattern detection experiment-we show how this decay kernel improves the model's predictive performance for sequences whose underlying statistics change over time, and enables the model to capture effects of memory constraints on auditory pattern detection. The resulting model is available in our new open-source R package, ppm (https://github.com/pmcharrison/ppm).
Highlights
Humans are sensitive to structural regularities in sound sequences [1,2,3,4,5,6,7,8,9,10]
We address these limitations with Prediction by Partial Matching (PPM)-Decay, a new variant of PPM that introduces a customizable memory decay kernel
PPM is a powerful sequence prediction algorithm that has proved well-suited to modeling the cognitive processing of auditory sequences [3, 5, 19,20,21,22]
Summary
Humans are sensitive to structural regularities in sound sequences [1,2,3,4,5,6,7,8,9,10]. The power of PPM comes from combining together multiple n-gram models with different orders (i.e. different values of n), with the weighting of these different orders varying according to the amount of training data available. This combination process allows PPM to retain reliable performance on small training datasets while outperforming standard Markov chain models with larger training datasets
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