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Paper detail

Structure-preserving numerical integrators for Hodgkin-Huxley-type systems

Motivated by the Hodgkin-Huxley model of neuronal dynamics, we study explicit numerical integrators for "conditionally linear" systems of ordinary differential equations. We show that splitting and composition methods, when applied to the Van der Pol oscillator and to the Hodgkin-Huxley model, do a better job of preserving limit cycles of these systems for large time steps, compared with the "Euler-type" methods (including Euler's method, exponential Euler, and semi-implicit Euler) commonly used in computational neuroscience, with no increase in computational cost. These limit cycles are important to preserve, due to their role in neuronal spiking. Splitting methods even compare favorably to the explicit exponential midpoint method, which is twice as expensive per step. The second-order Strang splitting method is seen to perform especially well across a range of non-stiff and stiff dynamics.

preprint2020arXivOpen access
Zhengdao ChenBaranidharan RamanAri Stern
math.NANumerical Analysis
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Zhengdao ChenBaranidharan RamanAri Stern

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