Romain Cazé
Romain Cazé
Sorbonnes Universités
Verified email at upmc.fr - Homepage
Title
Cited by
Cited by
Year
Passive dendrites enable single neurons to compute linearly non-separable functions
RD Cazé, M Humphries, B Gutkin
PLoS Comput Biol 9 (2), e1002867, 2013
482013
Contribution of sublinear and supralinear dendritic integration to neuronal computations
A Tran-Van-Minh, RD Cazé, T Abrahamsson, L Cathala, BS Gutkin, ...
Frontiers in cellular neuroscience 9, 67, 2015
462015
Adaptive properties of differential learning rates for positive and negative outcomes
RD Cazé, MAA van der Meer
Biological cybernetics 107 (6), 711-719, 2013
342013
Performance in a GO/NOGO perceptual task reflects a balance between impulsive and instrumental components of behaviour
A Berditchevskaia, RD Cazé, SR Schultz
Scientific reports 6, 27389, 2016
232016
Hippocampal replays under the scrutiny of reinforcement learning models
R Cazé, M Khamassi, L Aubin, B Girard
Journal of neurophysiology 120 (6), 2877-2896, 2018
172018
Dendrites enable a robust mechanism for neuronal stimulus selectivity
RD Cazé, S Jarvis, AJ Foust, SR Schultz
Neural Computation 29 (9), 2511-2527, 2017
102017
Dendrites enhance both single neuron and network computation
RD Cazé, MD Humphries, BS Gutkin
The Computing Dendrite, 365-380, 2014
32014
On the distribution and function of synaptic clusters
RD Cazé, AJ Foust, C Clopath, SR Schultz
BioRxiv, 029330, 2017
12017
A robust model of sensory tuning using dendritic non-linearities
RD Cazé, S Jarvis, SR Schultz
BMC neuroscience 16 (1), 1-2, 2015
2015
Synaptic clustering or scattering? Insight from a model of synaptic plasticity in dendrites
RD Cazé, C Clopath, SR Schultz
bioRxiv, 029330, 2015
2015
The role of dendritic non-linearities in single neuron computation
R Cazé, B Gutkin, M Humphries, B Gutkin
Front. Syst. Neurosci. Conference Abstract: 4th NAMASEN Training Workshop …, 2014
2014
A difficult classification for neurons without dendrites
RD Cazé, MD Humphries, B Gutkin, SR Schultz
2013 6th International IEEE/EMBS Conference on Neural Engineering (NER), 215-218, 2013
2013
Intrinsic dendritic plasticity maximally increases the computational power of CA1 pyramidal neurons
R Caze, MD Humphries, B Gutkin
Front. Neurosci. Conference Abstract: Computational and Systems Neuroscience, 2010
2010
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Articles 1–13