Dr. Tyler J. VanderWeele of Harvard University will give a lecture as the 2013 recipient of the Raymond J. Carroll Young Investigator Award
on Thursday, February 20, 2014 at 4:00 pm in the Brazos
Amphitheatre Room of the Hilton Hotel and Conference Center. No registration is necessary! Follow the links to view the
09:00 AM / 05:00 PM Blocker Building, Room 457, 453 979-845-3141
08:00 AM / 04:00 PM Hilton College Station Hotel & Conference Center 979-845-3141
11:30 AM / 12:30 PM Blocker Building (BLOC), Room 113 979-845-3141
Department of Statistics
Florida State University
Recent Advances in Elastic Functional Data Analysis
Functional data analysis (FDA) is fast becoming an important research area, due to its broad applications in many branches of science, including biostatistics and bioinformatics. An essential component of FDA is registration of points across functional objects. Without proper registration, the results are often inferior and difficult to interpret.
The current practice in FDA community is to treat registration as a pre-processing step, using off-the-shelf alignment procedures, and follow it up with statistical analysis of the resulting data. In contrast, Elastic FDA is a more comprehensive approach, where one solves for the registration and statistical inferences in a simultaneous fashion. The key idea here is to use Riemannian metrics with appropriate invariance properties, to form objective functions for alignment and to develop statistical models involving functional data. While these elastic metrics are complicated in general, we have developed a family of square-root transformations that map these metrics into simpler Euclidean representations, thus enabling more standard statistical procedures. Specifically, we have developed techniques for elastic functional PCA and elastic regression models involving functional variables. I will demonstrate this ideas using imaging data in neuroscience and bioinformatics, where biological structures can often be represented as functions (curves or surfaces) on intervals or spheres. Examples of curves include DTI fiber tracts and chromosomes while examples of surfaces include subcortical structures (hippocampus, thalamus, putamen, etc). Statistical goals here include shape analysis and modeling of these structures and to use their shapes in medical diagnosis.
Friday, 8/31/2018, BLOC 113, 11:30 AM