Spike timing-dependent plasticity induces non-trivial topology in the brain

Borges, R. R.Borges, F. S.Lameu, E. L.Batista, A. M.Iarosz, K. C.Caldas, I. L.Antonopoulos, C. G.Baptista, M. S.2018-02-012018-02-012017-04-01Borges, R R, Borges, F S, Lameu, E L, Batista, A M, Iarosz, K C, Caldas, I L, Antonopoulos, C G & Baptista, M S 2017, 'Spike timing-dependent plasticity induces non-trivial topology in the brain', Neural Networks, vol. 88, pp. 58–64. https://doi.org/10.1016/j.neunet.2017.01.0100893-6080http://hdl.handle.net/2164/9971This study was possible by partial financial support from the following Brazilian government agencies: CNPq, FAPESP (2011/19296-1, 2015/07311-7, 2016/16148-5) and CAPES. AMB, KCI, CGA, and MSB partial support from EPSRC-EP/I032606. We also wish thank Newton Fund and COFAP.71183484engplasticitysynchronizationnetworkQC PhysicsEngineering and Physical Sciences Research Council (EPSRC)EP/I032606/1QCSpike timing-dependent plasticity induces non-trivial topology in the brainJournal article10.1016/j.neunet.2017.01.01088