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Schweighofer N, Arbib MA, Kawato M (1998) Role of the cerebellum in reaching movements in humans. I. Distributed inverse dynamics control. Eur J Neurosci 10:86-94 [PubMed]

References and models cited by this paper

References and models that cite this paper

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]
   Distributed cerebellar plasticity implements adaptable gain control (Garrido et al., 2013) [Model]
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. Front Comput Neurosci 7:64 [Journal] [PubMed]
   Distributed synaptic plasticity and spike timing (Garrido et al. 2013) [Model]
Luque NR, Naveros F, Carrillo RR, Ros E, Arleo A (2019) Spike burst-pause dynamics of Purkinje cells regulate sensorimotor adaptation. PLoS Comput Biol 15:e1006298 [Journal] [PubMed]
   Spike burst-pause dynamics of Purkinje cells regulate sensorimotor adaptation (Luque et al 2019) [Model]
Salimi-Badr A, Ebadzadeh MM, Darlot C (2017) A possible correlation between the basal ganglia motor function and the inverse kinematics calculation. J Comput Neurosci 43:295-318 [Journal] [PubMed]
   Basal ganglia motor function and the inverse kinematics calculation (Salimi-Badr et al 2017) [Model]
Salimi-Badr A, Ebadzadeh MM, Darlot C (2018) A system-level mathematical model of Basal Ganglia motor-circuit for kinematic planning of arm movements. Comput Biol Med 92:78-89 [Journal] [PubMed]
   Basal Ganglia motor-circuit for kinematic planning of arm movements (Salimi-Badr et al 2017) [Model]
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