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University of Cambridge > Talks.cam > Brain Mapping Unit Networks Meeting and the Cambridge Connectome Consortium
Brain Mapping Unit Networks Meeting and the Cambridge Connectome Consortium
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The Brain Mapping Unit is part of the Department of Psychiatry. The Unit’s interest is to map the structure and function of the human brain with advanced brain imaging techniques. We are particularly interested in mapping normal memory and learning, development, ageing, drug effects on brain function, and neuropsychiatric disorders such as schizophrenia, autism and depression. We have a strong technical focus on complex network analysis and other methods for statistical analysis and visualization of large and complex brain mapping datasets. The BMU networks meetings are held on Tuesday mornings, in the seminar room of the Behavioural and Clinical Neuroscience Institute, in the Sir William Hardy Building, on Downing Site. The Cambridge Connectome Consortium is a forum for brain-connectivity researchers and is co-organized by the Brain Mapping Unit Networks Group and the MRC CBU Connectivity Interest group. The aim of the Consortium is to host connectivity-research speakers from Cambridge, the UK and the wider world. The Cambridge Connectome Consortium meetings are held approximately monthly in the lecture theatre of the MRC CBU , 15 Chaucer Road, Cambridge. If you have a question about this list, please contact: Petra Vertes; Mikail Rubinov; ke242. If you have a question about a specific talk, click on that talk to find its organiser. 0 upcoming talks and 56 talks in the archive. Cortical phase, amplitude, and cross-frequency interactions during task performance and rest.
A dynamic view of fMRI connectivity: Frequency dependent cortical hubs and network integration in the human brain.
The Human Green Brain Project: Computational Models of the Developing Connectome
How does energy efficiency shape the organization of brains?
Dynamics of cortical circuits lead to switching resting state functional connectivity
Recent developments in diffusion MRI analysis methods.
Interareal pathways in the primate cortex
Dynamic causal modelling the 'resting' Parkinsonian brain, and network discovery
Local and extended frontal lobe networks.
A talk by Manuel Schroeter
A wavelet method for modelling and despiking motion artifacts in fMRI time series
Relating structure and function: Diffusion and modularity in the human connectome
Information integration, Granger causality and measuring conscious level.
Expertise-dependent hub and axis reorganization of functional brain networks during meditation state.
Modularity and maturation of brain networks in childhood-onset schizophrenia
Modeling the human functional connectome.
Linking cortical architecture, connections and dynamics
Measuring rich clubs on weighted networks: definitions and random controls
Semi-metric topology of functional brain networks: Sensitivity and specifity in autism spectrum and major depression disorder
The importance of being balanced: Short and long range correlations in resting state.
The Human Connectome Project: Progress and Perspectives
Test–retest reliability of resting-state fMRI networks.
Mesoscopic structures of fMRI networks
Novel analytical methods to investigate correspondences between brain areas in different primate species
Fractal Timing: Improving Life Support Devices by the Addition of Biological Noise
The cognitive relevance of the community structure of the functional co-activation network of the human brain
The brain at 'rest': investigating spontaneous activity in BOLD fMRI using Independent Component Analysis
Rich clubs and control benefits: A resource-based perspective on core-periphery structures in complex networks
Modeling C. elegans: The Open Worm Project
Toward reliable characterization of functional homogeneity in the functional connectome
Exploring the Human Connectome: The Rich and Famous
Hubs of brain functional networks are radically reorganized in comatose patients
Centrality clubs and concepts of the core: decoding the communicative organisation of brain networks
Introducing the Cambridge Connectome Consortium
Google matrix of social and brain networks
Large-scale brain networks in cognition: A unifying triple network model
The convergence of maturation and structural covariance in the human cortex and their relationship with intrinsic brain activity.
Mapping overlapping, dynamic brain networks from resting-state FMRI
Self-similar behaviour in the brain: the correlations in rest-state fMRI.
Pattern recognition in neuroimaging
Semi-metric Analysis of fMRI Connectivity Networks
Brain connectivity in autism, measured using source-space magnetoencephalography.
Head Motion and Resting State fMRI Journal Club
Varieties of Representation
Effect of Head Motion on Resting State Functional Connectivity
Structural determinants and directed information transfer in self-organized critical neuronal networks
The Interplay Between the Peripheral and Central Nervous Systems: A Preliminary Network Perspective
A Graph Meta-analytical Approach to Compensatory Activations in Schizophrenia
Translational Neuromodeling for Psychiatry
Degenerating Networks: Functional Connectivity in Neurodegenerative Tauopathies
Mapping Neural Networks in the Fly
Bayesian Inference and its Applications
Uncovering and Differentiating Network Structures
Networks: Contagion and Resilience
Physiologically Based Brain Modeling and Verification: Theory, Experimental Tests, and New Directions.
The Pigeon Connectome and Knotty-centredness
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Matias Palva, Neuroscience Center, University of Helsinki, Finland.
Tuesday 30 September 2014, 11:00-12:00