Speaker
Description
he elapsed-time model describes the behavior of interconnected neurons through the time since their last spike. It is an age-structured non-linear equation in which age corresponds to the elapsed time since the last discharge, and models many interesting dynamics depending on the type of interactions between neurons. We investigate the linearized stability of this equation by considering a discrete delay, which accounts for the possibility of a synaptic delay due to the time needed to transmit a nerve impulse from one neuron to the rest of the ensemble. We state a stability criterion that allows to determine if a steady state is linearly stable or unstable depending on the delay and the interaction between neurons. Our approach relies on the study of the asymptotic behavior of related Volterra-type integral equations in terms of theirs Laplace transforms. The analysis is complemented with numerical simulations illustrating the change of stability of a steady state in terms of the delay and the intensity of interconnections.
Bibliography
@article{caceres2026,
title = {On the local stability of the elapsed-time model in terms of the transmission delay and interconnection strength},
journal = {Journal of Differential Equations},
volume = {466},
pages = {114254},
year = {2026},
issn = {0022-0396},
doi = {https://doi.org/10.1016/j.jde.2026.114254},
author = {María J. Cáceres and José Cañizo and Nicolas Torres},
}
@article{pakdaman2010dynamics,
title={Dynamics of a structured neuron population},
author={Pakdaman, Khashayar and Perthame, Beno{\^\i}t and Salort, Delphine},
journal={Nonlinearity},
volume={23},
number={1},
pages={55--75},
year={2010}
}
@article{canizo2019asymptotic,
title={Asymptotic behaviour of neuron population models structured by elapsed-time},
author={Ca{\~n}izo, Jos{\'e} A and Yolda{\c{s}}, Havva},
journal={Nonlinearity},
volume={32},
number={2},
pages={464--495},
year={2019},
publisher={IOP Publishing}
}
@article{mischler2018weak,
title={Weak and Strong Connectivity Regimes for a General Time Elapsed Neuron Network Model: S. Mischler et al.},
author={Mischler, St{\'e}phane and Qui{\~n}inao, Cristobal and Weng, Qilong},
journal={Journal of Statistical Physics},
volume={173},
number={1},
pages={77--98},
year={2018},
publisher={Springer}
}
@article{perthame2025strongly,
title={Strongly nonlinear age-structured equation, time-elapsed model and large delays: B. Perthame et al.},
author={Perthame, Beno{\^\i}t and Rieutord, Cl{\'e}ment and Salort, Delphine},
journal={Journal of Mathematical Biology},
volume={91},
number={5},
pages={65},
year={2025},
publisher={Springer}
}
