Two new directions of functional connectivity investigation are emerging to advance studies
of the brain's functional organization. First, the identification of task‐related dynamics of …

The human brain is in constant flux, as distinct areas engage in transient communication to
support basic behaviors as well as complex cognition. The collection of interactions between …

Fingerprint patterns derived from functional connectivity (FC) can be used to identify subjects
across groups and sessions, indicating that the topology of the brain substantially differs …

Recent advances in neuroimaging methods and analysis have led to an expanding body of
research that investigates how large-scale brain network organization dynamically adapts to …

Recent work has highlighted the scale and ubiquity of subject variability in observations from
functional MRI data (fMRI). Furthermore, it is highly likely that errors in the estimation of …

How individual differences in brain network organization track behavioral variability is a
fundamental question in systems neuroscience. Recent work suggests that resting-state and …

Network neuroscience provides important insights into brain function by analyzing complex
networks constructed from diffusion Magnetic Resonance Imaging (dMRI), functional MRI …

Brain connectome fingerprinting is rapidly rising as a novel influential field in brain network
analysis. Yet, it is still unclear whether connectivity fingerprints could be effectively used for …

While the function of most biological systems is tightly constrained by their structure, current
evidence suggests that coupling between the structure and function of brain networks is …

Many recent developments surrounding the functional network organization of the human
brain have focused on data that have been averaged across groups of individuals. While …