Special section on statistics in neuroscience

Abstract

This article provides a brief introduction to seven papers that are included in this special section on Statistics in Neuroscience: (1) Xiaoyan Shi, Joseph G. Ibrahim, Jeffrey Lieberman, Martin Styner, Yimei Li and Hongtu Zhu: Two-state empirical likelihood for longitudinal neuroimaging data (2) Vincent Q. Vu, Pradeep Ravikumar, Thomas Naselaris, Kendrick N. Kay, Jack L. Gallant and Bin Yu: Encoding and decoding V1 fMRI responses to natural images with sparse nonparametric models (3) Sourabh Bhattacharya and Ranjan Maitra: A nonstationary nonparametric Bayesian approach to dynamically modeling effective connectivity in functional magnetic resonance imaging experiments (4) Christopher J. Long, Patrick L. Purdon, Simona Temereanca, Neil U. Desai, Matti S. H\"am\"al\"ainen and Emery Neal Brown: State-space solutions to the dynamic magnetoencephalography inverse problem using high performance computing (5) Yuriy Mishchencko, Joshua T. Vogelstein and Liam Paninski: A Bayesian approach for inferring neuronal connectivity from calcium fluorescent imaging data (6) Robert E. Kass, Ryan C. Kelly and Wei-Liem Loh: Assessment of synchrony in multiple neural spike trains using loglinear point process models (7) Sofia Olhede and Brandon Whitcher: Nonparametric tests of structure for high angular resolution diffusion imaging in Q-space