Abstract Systems neuroscience approaches with a focus on large-scale brain organization
and network analysis are advancing foundational knowledge of how cognitive control …

Understanding communication and information processing in nervous systems is a central
goal of neuroscience. Over the past two decades, advances in connectomics and network …

The organization of human brain networks can be measured by capturing correlated brain
activity with fMRI. There is considerable interest in understanding how brain networks vary …

Neuronal signalling and communication underpin virtually all aspects of brain activity and
function. Network science approaches to modelling and analysing the dynamics of …

The frontal lobes are important for cognitive control, yet their functional organization remains
controversial. An influential class of theory proposes that the frontal lobes are organized …

The prefrontal cortex (PFC) plays a critical role in the generation and regulation of emotion.
However, we lack an integrative framework for understanding how different emotion-related …

We are continuously bombarded by external inputs of various timescales from the
environment. How does the brain process this multitude of timescales? Recent resting state …

Understanding complex systems such as the human brain requires characterization of the
system's architecture across multiple levels of organization–from neurons, to local circuits, to …

Intrinsic connectivity, measured using resting-state fMRI, has emerged as a fundamental tool
in the study of the human brain. However, due to practical limitations, many studies do not …

Cognition and behavior emerge from brain network interactions, such that investigating
causal interactions should be central to the study of brain function. Approaches that …