Publications
Networks with asymmetric inputs: lattice of synchrony subspaces. NONLINEARITY. 2018;31:3847-3879.Edit
Patterns of Synchrony for Feed-forward and Auto-reed-forward Neural Networks. Chaos: An Interdisciplinary Journal of Nonlinear Science. 2017;27(1):013103.Edit
[2005-29] Minimal Coupled Cell Networks .
Hippocampal mossy fibre boutons as dynamical synapses. Neurocomputing. 2004;58:699-703.Edit
Homogeneous Coupled Cell Networks with S3-symmetric Quotient. Discrete and Continuous Dynamical Systems. 2007;Supplement.Edit
Simple vector fields with complex behavior. Internat. J. Bifur. Chaos Appl. Sci. Engrg.. 2006;16:369-381.
Switching along a network. Dumortier F, Broer H, Mawhin J, Vanderbauwhede A, Lunel S, editors 2005.Edit
Is there switching for replicator dynamics and bimatrix games? . Physica D: Nonlinear Phenomena . 2011;240:1475-1488.
Path Formulation for a Modal Family. Portugaliae Mathematica. 2001;58(4):407-424.
The Lattice of Synchrony Subspaces of a Coupled Cell Network: Characterization and Computation Algorithm. Journal of Nonlinear Science.Edit
Synchrony and Elementary Operations on Coupled Cell Networks. SIAM J. Appl. Dyn. Syst. 15(1). 2016;15(1):322-337.Edit
[2004-8] Dynamics near a heteroclinic network .
A General Hippocampal Computational Model Combining Episodic and Spatial Memory in a Spiking Model.. 2006.
Coupled Cell Networks: minimality. PAMM Proc. Appl. Math. Mech.. 2007;7:1030501-1030502.Edit
Is there switching for replicator dynamics and bimatrix games? PHYSICA D-NONLINEAR PHENOMENA. 2011;240:1475-1488.Edit
Interior Symmetries and Multiple Eigenvalues for Homogeneous Networks. SIAM J. Appl. Dyn. Syst.. 2012;11.Edit
SpiNet Tutorials.. 2007.
Versatile morphometric analysis and visualization of the three-dimensional structure of neurons. Neuroinformatics. 2013;11:393-403.Edit
Dynamics near a Heteroclinic network. Nonlinearity. 2005;18:391-414.
Switching near a network of rotating nodes. Dyn. Syst.. 2010;25:75-95.Edit
Dynamics near a heteroclinic network. Nonlinearity. 2005;18:391-414.
NMDA channels together with L-type calcium currents and calcium-activated nonspecific cationic currents are sufficient to generate windup in WDR neurons. Journal of Neurophysiology. 2010;104:1155-1166.Edit
Patterns of synchrony for feed-forward and auto-regulation feed-forward neural networks. Chaos . 2017;27:013103,.Edit