Title :
Multistability in Networks With Self-Excitation and High-Order Synaptic Connectivity
Author :
Huang, Zhenkun ; Song, Qiankun ; Feng, Chunhua
Author_Institution :
Sch. of Sci., Jimei Univ., Xiamen, China
Abstract :
This paper presents new results on multistability of networks when neurons undergo self-excitation and second-order synaptic connectivity. Due to self-excitation of neurons, we split state space into invariant regions and establish new criteria of coexistence of equilibria (periodic orbits) which are exponentially stable. It is shown that high-order synaptic connectivity and external inputs play an important role on the number of equilibria and their convergent dynamics. As a consequence, our results refute traditional viewpoint: high-order interactions of neurons have faster convergence rate and greater storage capacity than first-order ones. Finally, numerical simulations will illustrate our new and interesting results.
Keywords :
asymptotic stability; neural nets; neurophysiology; numerical analysis; exponential stability; high-order synaptic connectivity; network multistability; neuron interaction; neuron self-excitation; numerical simulation; second-order synaptic connectivity; storage capacity; Division regions; exponential stability; high-order synaptic connectivity; self-excitation;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2009.2037401
