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Transition to Burst Synchronization on Complex Neuron Networks Zhonghuai Hou( 侯中怀 ) 2007.9 Nanjing Department of Chemical Physics Hefei National Lab of.

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Presentation on theme: "Transition to Burst Synchronization on Complex Neuron Networks Zhonghuai Hou( 侯中怀 ) 2007.9 Nanjing Department of Chemical Physics Hefei National Lab of."— Presentation transcript:

1 Transition to Burst Synchronization on Complex Neuron Networks Zhonghuai Hou( 侯中怀 ) 2007.9 Nanjing Department of Chemical Physics Hefei National Lab of Physical Science at Microscale University of Science and Technology of China

2 Our research interest  Statistical problems in mesoscopic chemical systems  Nonlinear Dynamics on complex networks Complexity + Nonlinearity

3 A Neuron

4 Diversity: Morphology + Physiology  Oscillation  Spiking  Bursting  Chaos

5 Neuron Network  Human Brain: 10 11 and 10 4 Complex Network Small-World Scale-Free  Big Challenge : Dynamics + Functioning

6 An interesting phenomenon...  Central Pattern Generator Small microcircuits Rhythmic motor commands  Striking feature Individual: irregular,chaotic bursts Ensemble: regular, rhythmic bursting Mechanism ?

7 Related study  Chaos Regularization N.F.Rulkov, PRL 86,183(2001)

8 Related study  Ordering Chaos by Random Shortcuts F. Qi, Z.Hou, H. Xin, PRL 91, 064102 (2003)

9 Related Study M. Wang, Z.Hou, H.Xin. ChemPhysChem 7 , 579( 2006)  Ordering Bursting Chaos Hindmarsh-Rose (HR) model system

10 Synchronization of Bursting System  Beyond complete synchronization Spike Syn... Burst Syn...

11 The present work Fixed Network + increased coupling  Transition from chaos to BS  Different types of BS-states  Spike-adding  Bursting bifurcation  Dynamic cluster separation  Homoclinic orbits shrinking  Local mean field analysis

12 The model  Coupled HR system SW Network: N neurons M added links Parameters: Chaotic

13 Transition to BS

14 Phase Trajectories Spike Adding Bursting Bifur...

15 Phase Transitions

16 Bursting Mechanism Fast sub-system: Slow Parameter: Fold-Homoclinic(FHC) Fold-Hopf(FH) Homoclinic Shrinking

17 Local Mean Field Fluctuate Close to 0 Depend weakly on i

18 Perturbed HR system

19 Cluster separation Valid + Robust

20 Remarks Easy Hard Easier 5 SPB 6 SPB FH (Homogeneous)

21 Conclusion  Transition to BS is investigated  Two distinct types of transition  Neuron degree is important  Local mean field approximation  Large, Homogeneous HR network with many random links in between can show transition from spatiotemporal chaos to BS-states with FHC- and FH-bursting

22 Thank you !

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