Figure 10:
An HH-NaKL model neuron and a DDF-NaKL were driven by the same Istim(t) in a training window of 500 ms. Only the V(t) data from the HH-NaKL model neuron were used to train the DDF-NaKL neuron. (h = 0.02 ms, DE= 3, β= 10, τ= 3h, Nc= 5000.) (Top) We show the Istim(t) in a subsequent 500 ms window used for prediction by the trained DDF-NaKL model. (Bottom) Comparison of the voltage time courses V(t) from the numerical solution of the HH-NaKL and the forecast of the trained DDF-NaKL models over a 500 ms forecasting window. This V(t)-trained DDF-NaKL neuron was used in the two-neuron gap junction network, Figure 9, to replace the HH NaKL neuron.

An HH-NaKL model neuron and a DDF-NaKL were driven by the same Istim(t) in a training window of 500 ms. Only the V(t) data from the HH-NaKL model neuron were used to train the DDF-NaKL neuron. (h = 0.02 ms, DE= 3, β= 10, τ= 3h, Nc= 5000.) (Top) We show the Istim(t) in a subsequent 500 ms window used for prediction by the trained DDF-NaKL model. (Bottom) Comparison of the voltage time courses V(t) from the numerical solution of the HH-NaKL and the forecast of the trained DDF-NaKL models over a 500 ms forecasting window. This V(t)-trained DDF-NaKL neuron was used in the two-neuron gap junction network, Figure 9, to replace the HH NaKL neuron.

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