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Dean P, Porrill J, Ekerot CF, Jörntell H (2010) The cerebellar microcircuit as an adaptive filter: experimental and computational evidence. Nat Rev Neurosci 11:30-43 [PubMed]

References and models cited by this paper

References and models that cite this paper

Bol K, Marsat G, Harvey-Girard E, Longtin A, Maler L (2011) Frequency-tuned cerebellar channels and burst-induced LTD lead to the cancellation of redundant sensory inputs. J Neurosci 31:11028-38 [Journal] [PubMed]
   Cancelling redundant input in ELL pyramidal cells (Bol et al. 2011) [Model]
Garrido JA, Luque NR, D'Angelo E, Ros E (2013) Distributed cerebellar plasticity implements adaptable gain control in a manipulation task: a closed-loop robotic simulation Front. Neural Circuits 7:159:1-20 [Journal] [PubMed]
   Distributed cerebellar plasticity implements adaptable gain control (Garrido et al., 2013) [Model]
Rössert C, Dean P, Porrill J (2015) At the Edge of Chaos: How Cerebellar Granular Layer Network Dynamics Can Provide the Basis for Temporal Filters. PLoS Comput Biol 11:e1004515 [Journal] [PubMed]
   Basis for temporal filters in the cerebellar granular layer (Roessert et al. 2015) [Model]
Rössert C, Solinas S, D'Angelo E, Dean P, Porrill J (2014) Model cerebellar granule cells can faithfully transmit modulated firing rate signals. Front Cell Neurosci 8:304 [Journal] [PubMed]
   Information transmission in cerebellar granule cell models (Rossert et al. 2014) [Model]
Sudhakar SK, Hong S, Raikov I, Publio R, Lang C, Close T, Guo D, Negrello M, De Schutter E (2017) Spatiotemporal network coding of physiological mossy fiber inputs by the cerebellar granular layer. PLoS Comput Biol 13:e1005754 [Journal] [PubMed]
   Model of the cerebellar granular network (Sudhakar et al 2017) [Model]
Wilson CJ, Beverlin B, Netoff T (2011) Chaotic desynchronization as the therapeutic mechanism of deep brain stimulation. Front Syst Neurosci 5:50 [Journal] [PubMed]
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