This project consists of two intertwined components: (a) development of new statistical methods that address recurrent problems in the analysis of functional neuroimaging data and (b) neuroscientific studies of visual remapping in human cortex, which will frame the need for and guide the development of our new methods. The new statistical methods in this proposal apply directly to diverse applications beyond functional neuroimaging, from galaxy clustering to DNA microarrays. The three neurosciences questions in this proposal address fundamental issues regarding neural mechanisms of remapping in humans. Visual remapping is the process that coordinates the visual and eye-movement systems in order to maintain stable perception of the world when the eyes move. This project will achieve the following specific aims, each tied to a specific scientific question.
Aim 1. To develop new multiple testing methods for false discovery control. Question 1. Does remapping occur outside parietal cortex? Extending recent work on controlling the False Discovery Rate this project will develop procedures that bound the unobserved proportion (or number) of false discoveries with specified confidence. The method will be applied to investigate Question 1.
Aim 2. To develop tools for finding nonlinearly optimal fMRI designs. Question 2. What is the time course of remapping? This project will implement design tools that optimize targeted inferences -- linear and nonlinear. The tools will be applied to design experiments that address Question 2.
Aim 3. To develop nonparametric confidence sets for structured function estimation. Question 3. How do the shapes of the visual and remapped responses differ? This project will build on recent work in nonparametric regression to construct confidence sets for an unknown function under shape constraints and with dependent noise. The method will be applied to Question 3.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS047493-01
Application #
6715731
Study Section
Social Sciences, Nursing, Epidemiology and Methods 4 (SNEM)
Program Officer
Chen, Daofen
Project Start
2004-01-01
Project End
2007-12-31
Budget Start
2004-01-01
Budget End
2004-12-31
Support Year
1
Fiscal Year
2004
Total Cost
$187,269
Indirect Cost
Name
Carnegie-Mellon University
Department
Biostatistics & Other Math Sci
Type
Schools of Arts and Sciences
DUNS #
052184116
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
Yan, Xiaoran; Shalizi, Cosma; Jensen, Jacob E et al. (2014) Model selection for degree-corrected block models. J Stat Mech 2014:
Wang, Helena X; Merriam, Elisha P; Freeman, Jeremy et al. (2014) Motion direction biases and decoding in human visual cortex. J Neurosci 34:12601-15
Goerg, Georg M; Shalizi, Cosma Rohilla (2013) Mixed LICORS: A Nonparametric Algorithm for Predictive State Reconstruction. JMLR Workshop Conf Proc 31:289-297
Shalizi, Cosma Rohilla; Rinaldo, Alessandro (2013) CONSISTENCY UNDER SAMPLING OF EXPONENTIAL RANDOM GRAPH MODELS. Ann Stat 41:508-535
Friedenberg, David A; Genovese, Christopher R (2013) Straight to the Source: Detecting Aggregate Objects in Astronomical Images with Proper Error Control. J Am Stat Assoc 108:456-468
Gelman, Andrew; Shalizi, Cosma Rohilla (2013) Philosophy and the practice of Bayesian statistics. Br J Math Stat Psychol 66:8-38
Freeman, Jeremy; Heeger, David J; Merriam, Elisha P (2013) Coarse-scale biases for spirals and orientation in human visual cortex. J Neurosci 33:19695-703
Merriam, Elisha P; Gardner, Justin L; Movshon, J Anthony et al. (2013) Modulation of visual responses by gaze direction in human visual cortex. J Neurosci 33:9879-89
Shalizi, Cosma Rohilla; Kontorovich, Aryeh (2013) Predictive PAC Learning and Process Decompositions. Adv Neural Inf Process Syst 26:
Shalizi, Cosma Rohilla (2012) Comment on ""Why and When 'Flawed' Social Network Analyses Still Yield Valid Tests of no Contagion"". Stat Politics Policy 3:5

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