RT @MahmoodHacan: Just out in @netneurosci "Dynamic rewiring of electrophysiological brain networks during learning" It was a real pleasure…
Just out in @netneurosci "Dynamic rewiring of electrophysiological brain networks during learning" It was a real pleasure working with @PoolRuggeri on this project. A 3 years of hard and fun work! https://t.co/UHzBVHOzSy
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
RT @MahmoodHacan: Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. ou…
Changes in network flexibility during learning obtained by @DaniSBassett 2013 (https://t.co/7lwM207eOU) using fMRI Vs. our HD-EEG study for the same task and same approach. This was really nice to observe! https://t.co/qEtoor3TxN https://t.co/sdkmP87ymw
New from one of the network gurus, Task-Based Core-Periphery Organization of Human Brain Dynamics http://t.co/EKsmhF1DfJ
New from one of the network gurus, Task-Based Core-Periphery Organization of Human Brain Dynamics http://t.co/EKsmhF1DfJ
#PLOSCompBio: Task-Based Core-Periphery Organization of Human Brain Dynamics http://t.co/IGNnKToqBs
#PLOSCompBio: Task-Based Core-Periphery Organization of Human Brain Dynamics http://t.co/InFYgtsIET