In this paper, we study a natural form of the experimental design problem in the context of an important brain imaging application. Assume that we have access ...

We show how this problem can be solved via harmonic analysis of a band-limited graph whose vertices correspond to participants and our goal is to fully recover ...

As mentioned in the main text, the goal of this experiment is to utilize economical measurements and a partial observation on expensive measurements to predict ...

Abstract: Consider an experimental design of a neuroimaging study, where we need to obtain p measurements for each participant in a setting where p' (< p).

We show how this problem can be solved via harmonic analysis of a band-limited graph whose vertices correspond to participants and our goal is to fully recover ...

Consider an experimental design of a neuroimaging study, where we need to obtain p measurements for each participant in a setting where pʹ(< p) are cheaper ...

Adaptive Signal Recovery on Graphs via Harmonic Analysis for Experimental Design in Neuroimaging. https://doi.org/10.1007/978-3-319-46466-4_12 · Full text.

Adaptive signal recovery on graphs via harmonic analysis for experimental design in neuroimaging Kim WH, Hwang SJ, Adluru N, Johnson SC, ...

Adaptive Signal Recovery on Graphs via Harmonic Analysis for Experiment Design in Neuroimaging. Authors: KIM, WON HWA; Seong Jae Hwang; Nagesh Adluru ...

Online Graph Completion: Multivariate Signal Recovery ... Adaptive Signal Recovery on Graphs via Harmonic Analysis for Experimental Design in Neuroimaging.