Synchrony Breaking Bifurcations in Small Neuronal Networks

Hemminga, Diko J.

doi:10.1137/17s016324

Cited by 1 publication

(2 citation statements)

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“…Examples of modeling through networks include biological, computational and physical real-world applications, see e.g. [4,12,16,25]. In applications, networks are commonly used to describe properties of dynamical systems formed by interacting individual dynamical systems.…”

Section: Introductionmentioning

confidence: 99%

“…We consider feed-forward networks where each cell in the first layer only receives inputs from itself and cells in the other layers only receive inputs from cells in the previous layer. Feed-forward networks have been used, for example, to design machine learning networks and neuronal networks, [12,16]. In those applications, the cells emulate neurons and each edge corresponds to a unidirectional connection between two neurons.…”

Section: Introductionmentioning

confidence: 99%

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The lifting bifurcation problem on feed-forward networks

Soares

2018

Nonlinearity

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We consider feed-forward networks, that is, networks where cells can be divided into layers, such that every edge targeting a layer, excluding the first one, starts in the prior layer. A feed-forward system is a dynamical system that respects the structure of a feed-forward network. The synchrony subspaces for a network, are the subspaces defined by equalities of some cells coordinates, that are flow-invariant by all the network systems. The restriction of each network system to each synchrony subspace is a system associated with a smaller network, which may be, or not, a feed-forward network. The original network is then said to be a lift of the smaller network. We show that a feed-forward lift of a feed-forward network is given by the composition of two types of lifts: lifts that create new layers and lifts inside a layer. Furthermore, we address the lifting bifurcation problem on feed-forward systems. More precisely, the comparison of the possible codimension-one local steady-state bifurcations of a feed-forward system and those of the corresponding lifts is considered. We show that for most of the feed-forward lifts, the increase of the center subspace is a sufficient condition for the existence of additional bifurcating branches of solutions, which are not lifted from the restricted system. However, when the bifurcation condition is associated with the internal dynamics and the lifts occurs inside an intermediate layer, we prove that the existence of bifurcating branches of solutions that are not lifted from the restricted system does depend generically on the particular feed-forward system. branch, Definition 5.1. Exploiting the techniques presented in [11], we give a characterization of the steady-state bifurcation branches associated with the internal dynamics on a feed-forward network in terms of their square-root-orders and slopes. See Proposition 5.3.Last, we study the lifting bifurcation problem on feed-forward networks for the two basic types of lifts on feed-forward networks. The restriction of a lift system to a synchrony subspace is a feed-forward system. Thus any bifurcation branch occurring for a feed-forward system corresponds to a bifurcation branch occurring for the lift system. The lifting bifurcation problem asks if there are more bifurcation branches occurring for the lift system. This problem was first raised in [2] where the authors proved that there are networks which have more bifurcations branches on some lift systems than the ones lifted from the original network. This problem was also studied in [9,10]. A well-know result gives a necessary condition for the lifting bifurcation problem: There can be more bifurcation branches on a lifted network than the ones lifted only if the center subspace of the coupled cell systems associated to the original network and the lift network have different dimensions. See Corollary 6.1.Frequently, this condition is also sufficient for the lifting bifurcation problem and we prove it in the following cases. For lifts that create new layers and inside a...

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%