BEGIN:VCALENDAR VERSION:2.0 PRODID:-//132.216.98.100//NONSGML kigkonsult.se iCalcreator 2.20.4// BEGIN:VEVENT UID:20260204T193822EST-5132Ze6rO1@132.216.98.100 DTSTAMP:20260205T003822Z DESCRIPTION:All are invited to attend\n\n1:15-3:30: Room 501 Goodman Cancer Research Centre (entrance through Bellini Bldg)3:30-5:00: poster session / reception\, Bellini 1st Floor Atrium\n\nGuest Speakers:\n\nAnmar Khadra\ , ºÚÁÏÍø±¬³Ô¹Ï:\n Mathematical modeling as a foundation for neuronal d ynamics\n\nLaurel Trainor\, McMaster University:\n Rhythm and prediction: M easuring neural oscillations in children and adults\n\nShimon Amir\, Conco rdia University:\n Circadian rhythms: From clock genes to behavior\n\nCarol ine Palmer\, ºÚÁÏÍø±¬³Ô¹Ï:\n Group dynamics: Nonlinear interactions ar ising in joint coordination tasks\n\nAndreas Daffertshofer\, Vrije Univ of Amsterdam\, COSMOS Network:\n Neural oscillations and criticality in motor control\n\nThe interplay between structural and functional brain networks is an urgent topic in neuroscience. Functional connectivity is often defi ned through the phase synchronization between activities at different netw ork nodes\, assessed via MEG or EEG. In addition to phase\, the node activ ities have marked amplitudes. I illustrate how these amplitudes can affect the phase dynamics by approximating the node dynamics as self-sustaining\ , weakly non-linear oscillators. The corresponding neural population model allows us to deduce a phase dynamics in the form of a weakly nonlinear\, coupled (Kuramoto) network\, well-understood for its capacity to (de-)sync hronize. Based on evidence from motor control experiments\, I argue that p hase and amplitude are distinct information carriers in large-scale neural networks.\n\nTrainee Poster Session / Wine and cheese Reception\n 3:30-5:0 0\, Bellini Bldg\, 1st Floor Atrium​​​​\n\n \n\nFor more info\, click here .\n DTSTART:20170815T171500Z DTEND:20170815T210000Z LOCATION:Life Sciences Complex\, CA\, QC\, Montreal\, H3G 0B1\, 3649 promen ade Sir William Osler SUMMARY:Symposium in Nonlinear Dynamics of Brain and Behaviour URL:/medhealthsci/channels/event/symposium-nonlinear-d ynamics-brain-and-behaviour-269195 END:VEVENT END:VCALENDAR