Gandolfi D, Lombardo P, Mapelli J, Solinas S, D'Angelo E. (2013). ?-Frequency resonance at the cerebellum input stage improves spike timing on the millisecond time-scale. Frontiers in neural circuits. 7 [PubMed]

See more from authors: Gandolfi D · Lombardo P · Mapelli J · Solinas S · D'Angelo E

References and models cited by this paper
References and models that cite this paper

Cattani A, Solinas S, Canuto C. (2016). A Hybrid Model for the Computationally-Efficient Simulation of the Cerebellar Granular Layer. Frontiers in computational neuroscience. 10 [PubMed]

Garrido JA, Ros E, D'Angelo E. (2013). Spike timing regulation on the millisecond scale by distributed synaptic plasticity at the cerebellum input stage: a simulation study. Frontiers in computational neuroscience. 7 [PubMed]

Geminiani A, Casellato C, D'Angelo E, Pedrocchi A. (2019). Complex Electroresponsive Dynamics in Olivocerebellar Neurons Represented With Extended-Generalized Leaky Integrate and Fire Models. Frontiers in computational neuroscience. 13 [PubMed]

Geminiani A et al. (2018). Complex Dynamics in Simplified Neuronal Models: Reproducing Golgi Cell Electroresponsiveness. Frontiers in neuroinformatics. 12 [PubMed]

Geminiani A, Pedrocchi A, D'Angelo E, Casellato C. (2019). Response Dynamics in an Olivocerebellar Spiking Neural Network With Non-linear Neuron Properties. Frontiers in computational neuroscience. 13 [PubMed]

Rössert C, Solinas S, D'Angelo E, Dean P, Porrill J. (2014). Model cerebellar granule cells can faithfully transmit modulated firing rate signals. Frontiers in cellular neuroscience. 8 [PubMed]

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