Rotation space random fields with an application to fMRI data
成果类型:
Article
署名作者:
Shafie, K; Sigal, B; Siegmund, D; Worsley, KJ
署名单位:
Shahid Beheshti University; Stanford University; Stanford University; McGill University
刊物名称:
ANNALS OF STATISTICS
ISSN/ISSBN:
0090-5364
发表日期:
2003
页码:
1732-1771
关键词:
unknown location
excursion sets
local maxima
human brain
tubes
activation
chi(2)
volume
scale
摘要:
Siegmund and Worsley considered the problem of testing for a signal with unknown location and scale in a Gaussian random field defined on RN. The test statistic was the maximum of a Gaussian random field in an (N + 1)-dimensional scale space, N dimensions for location and one dimension for the scale of a smoothing kernel. Siegmund and Worsley used two methods, one involving the expected Euler characteristic of the excursion set and the other involving the volume of tubes, to derive an approximate null distribution. The purpose of this paper is to extend the scale space result to the rotation space random field when N = 2, where the maximum is taken over all rotations of the filter as well as scales. We apply this result to the problem of searching for activation in brain images obtained by functional magnetic resonance imaging (fMRI).