Brain Topography Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/ORa4GwsTfI
RT @dimitrispp: @MillerLabMIT @JulioMTNeuro @mljanderson Possible next step: fit MUA by excitatory and inhibitors populations separately. U…
@MillerLabMIT @JulioMTNeuro @mljanderson Possible next step: fit MUA by excitatory and inhibitors populations separately. Understand interactions of pools of neurons with different biophysical properties. Use high resolution recordings, see e.g. here for a
New from #wellcometrust https://t.co/o8rFvqpfor Bayesian Modelling of Induced Responses and Neuronal Rhythms
#openaccess Bayesian Modelling of Induced Responses and Neuronal Rhythms. Pinotsis, D. A., Loonis, R., Bastos, A. M., Miller, E. K. & Friston, K. J. (2016). Bayesian Modelling of Induced Responses and Neuronal Rhythms. Brain Topography... https
RT @Neuro_Skeptic: Bayesian Modelling of Induced Brain Responses and Neuronal Rhythms https://t.co/Dpqp4HqxGm
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
RT @neuroraf: Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team…
RT @neuroraf: Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team…
RT @neuroraf: Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team…
RT @neuroraf: Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team…
RT @neuroraf: Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team…
Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/wVmUZIjncp by @FarlKriston & @MillerLabMIT 's team https://t.co/97vfnexJVe
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
RT @WTCN_UCL: Bayesian Modelling of Induced Responses and Neuronal Rhythms. https://t.co/oLjZcdDzjn https://t.co/KCKy86Rmnh
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
This looks like fun https://t.co/ve0M5H7zVE
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
RT @WTCN_UCL: From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
From mesoscope to microscope: new overview from @dimitrispp @MillerLabMIT and Karl J. Friston. https://t.co/wRrH5sAVO1
Bayesian Modelling of Induced Responses and Neuronal Rhythms. https://t.co/oLjZcdDzjn https://t.co/KCKy86Rmnh
Bayesian modeling of Neuronal Rhythms #springerlink https://t.co/DbqLCVgyJy
RT @uranus_2: レビュー。Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/sPKGByzPdJ
レビュー。Bayesian Modelling of Induced Responses and Neuronal Rhythms https://t.co/sPKGByzPdJ