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B1670
Title: Dimension reduction for functional data based on weak conditional moments Authors:  Bing Li - The Pennsylvania State University (United States) [presenting]
Jun Song - University of North Carolina at Charlotte (United States)
Abstract: The aim is to develop a general theory and estimation methods for functional linear sufficient dimension reduction, where both the predictor and the response can be random functions, or even vectors of functions. Unlike the existing dimension reduction methods, this approach does not rely on the estimation of conditional mean and conditional variance. Instead, it is based on a new statistical construction --- the weak conditional expectation, which is based on Carleman operators and their inducing functions. Weak conditional expectation is a generalization of conditional expectation. Its key advantage is to replace the projection on to an $L_2$-space --- which defines conditional expectation --- by projection on to an arbitrary Hilbert space, while still maintaining the unbiasedness of the related dimension reduction methods. This flexibility is particularly important for functional data, because attempting to estimate a full-fledged conditional mean or conditional variance by slicing or smoothing over the space of vector-valued functions may be inefficient due to the curse of dimensionality. We evaluated the performances of the new methods by simulation and in several applied settings.