Measuring the Performance of Neural Models

Autor: Oliver eSchoppe, Nicol S Harper, Ben DB Willmore, Andrew J King, Jan WH Schnupp
Jazyk: angličtina
Rok vydání: 2016
Předmět:
Zdroj: Frontiers in Computational Neuroscience, Vol 10 (2016)
Druh dokumentu: article
ISSN: 1662-5188
DOI: 10.3389/fncom.2016.00010
Popis: Good metrics of the performance of a statistical or computational model are essential for model comparison and selection. Here, we address the design of performance metrics for models that aim to predict neural responses to sensory inputs. This is particularly difficult because the responses of sensory neurons are inherently variable, even in response to repeated presentations of identical stimuli. In this situation, standard metrics (such as correlation coefficient) fail because they do not distinguish between explainable variance (the part of the neural response that is systematically dependent on the stimulus) and response variability (the part of the neural response that is not systematically dependent on the stimulus, and cannot be explained by modeling the stimulus-response relationship). As a result, models which perfectly describe the systematic stimulus-response relationship may appear to perform poorly.Two metrics have previously been proposed which account for this inherent variability: Signal Power Explained (SPE), and the normalized correlation coefficient (CCnorm). Here, we analyze these metrics, and show that they are intimately related. However, SPE has no lower bound, and we show that, even for good models, SPE can yield negative values that are difficult to interpret. CCnorm is better behaved in that it is effectively bounded between -1 and 1, and values below zero are very rare in practice and easy to interpret. However, it was hitherto not possible to calculate CCnorm directly; instead, it was estimated using imprecise and laborious resampling techniques. Here, we identify a new approach that can calculate CCnorm quickly and accurately. As a result, we argue that it is now a better choice of metric than SPE to accurately evaluate the performance of neural models.
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