From the Analysis of the Brain Images to the Study of Brain Networks Using Functional Connectivity and Multimodal Brain Signals

The manner in which the brain computes in various tasks is being probed at a deep level by modern brain imaging techniques, with an increasing appreciation of the different networks being used to solve these tasks. There is simultaneously developing a neural modelling technology, which attempts to e

## Abstract This paper presents a new approach to functional magnetic resonance imaging (FMRI) data analysis. The main difference lies in the view of what comprises an observation. Here we treat the data from one scanning session (comprising __t__ volumes, say) as one observation. This is contrary

## Abstract Recent studies have shown that resting‐state functional networks as studied with fMRI, EEG, and MEG may be so‐called small‐world networks. We investigated to what extent the characteristic features of small‐world networks are genetically determined. To represent functional connectivity

## Abstract Two magnetic resonance imaging techniques, BOLD (blood oxygenation level dependent) and EPISTAR (echo‐planar imaging and signal targeting with alternating radio‐frequency), were compared for functional brain imaging. Ten volunteers were imaged performing a sequential finger to thumb opp