Active Mutual Conjoint Estimation of Multiple Contrast Sensitivity Functions.
Dom Cp MarticorenaQuinn Wai WongJake BrowningKen WilburPinakin Gunvant DaveyAaron R SeitzJacob R GardnerDennis L BarbourPublished in: medRxiv : the preprint server for health sciences (2024)
Recent advances in nonparametric Contrast Sensitivity Function (CSF) estimation have yielded a new tradeoff between accuracy and efficiency not available to classical parametric estimators. An additional advantage of this new framework is the ability to independently tune multiple aspects of the estimator to seek further improvements. Machine Learning CSF (MLCSF) estimation with Gaussian processes allows for design optimization in the kernel, acquisition function and underlying task representation, to name a few. This paper describes a novel kernel for psychometric function estimation that is more flexible than a kernel based on signal detection theory. Despite being more flexible, it can result in a more efficient estimator. Further, trial selection for data acquisition that is generalized beyond pure information gain can also improve estimator quality. Finally, introducing latent variable representations underlying general CSF shapes can enable simultaneous estimation of multiple CSFs, such as from different eyes, eccentricities or luminances. The conditions under which the new procedures perform better than previous nonparametric estimation procedures are presented and quantified.