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ref: -0 tags: recurrent cortical model adaptation gain V1 LTD date: 02-11-2018 19:06 gmt revision:0 [head]

PMID-18336081 Adaptive integration in the visual cortex by depressing recurrent cortical circuits.

  • Mainly focused on the experimental observation that decreasing contrast increases latency to both behavioral and neural response (latter in the later visual areas..)
  • Idea is that synaptic depression in recurrent cortical connections mediates this 'adaptive integration' time-constant to maintain reliability.
  • Model also explains persistent activity after a flashed stimulus.
  • No plasticity or learning, though.
  • Rather elegant and well explained.

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ref: Zacksenhouse-2007.07 tags: Zacksenhouse 2007 Odoherty Nicolelis cortical adaptation BMI date: 01-06-2012 03:10 gmt revision:3 [2] [1] [0] [head]

PMID-17637835[0] Cortical modulations increase in early sessions with brain-machine interface.

  • "we demonstrate that the modulations of the firing-rates of cortical neurons increased abruptly after the monkeys started operating the BMI"
    • My hypothesis: is this like LMAN? Injection of noise for the purpose of exploration?
    • Their hypothesis: we are listening to the noise or effect of increased processing / congnitive load.
    • Alternative: decreased feedback / scrabled feedback makes the individual control signals themselves less controlled.
  • Describes spikes as inhomogeneous poisson processes, and breaks things down thusly.
  • Also develop a parametric model of neuronal firing based on tuning to movement, including velocity and acceleration.
  • Fano factor of recorded neurons increased during BCWH & BCWOH.
  • Percent overall modulation (POM) higher in brain control. That is, the variance explained not by the inhomogeneous poisson process, but rather by firing rate variations.
    • "[T]he ensemble-POM increased mainly due to an increase in the variance of the spike-count, which was not matched by the change in the mean spike-count."
  • Figure 6 is pretty convincing, actually.
  • PVM (percent velocity modulation) correlates strongly with POM, but with a fractional slope, indicating that veolocity tuning accounts for only a fraction of the variance.
    • "Since the increase in POM was not matched by increasing PVM or PKM, the higher neuronal rate modulations observed during brain control cannot be explained only by increased modulations due to the kinematics of the movement."

____References____

[0] Zacksenhouse M, Lebedev MA, Carmena JM, O'Doherty JE, Henriquez C, Nicolelis MA, Cortical modulations increase in early sessions with brain-machine interface.PLoS One 2:7, e619 (2007 Jul 18)

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ref: work-0 tags: covariance matrix adaptation learning evolution continuous function normal gaussian statistics date: 06-30-2009 15:07 gmt revision:0 [head]

http://www.lri.fr/~hansen/cmatutorial.pdf

  • Details a method of sampling + covariance matrix approximation to find the extrema of a continuous (but intractable) fitness function
  • HAs flavors of RLS / Kalman filtering. Indeed, i think that kalman filtering may be a more principled method for optimization?
  • Can be used in high-dimensional optimization problems like finding optimal weights for a neural network.
  • Optimum-seeking is provided by weighting the stochastic samples (generated ala a particle filter or unscented kalman filter) by their fitness.
  • Introductory material is quite good, actually...

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ref: Seidler-2006.11 tags: basal ganglia learning fMRI adaptation date: 03-11-2009 21:34 gmt revision:4 [3] [2] [1] [0] [head]

PMID-16794848[9] Bilateral basal ganglia activation associated with sensorimotor adaptation.

  • shows that the basal ganglia is highly active durnig the initial stages of sensory motor adaptation (cursor rotation).
    • specifically: "We observed activation in the right globus pallidus and putamen, along with the right prefrontal, premotor and parietal cortex," to support spatial cognitive processes of adaptation.. and .. "activation in the left globus pallidus and caudate nucleus, along with the left premotor and supplementary motor cortex, which may support the sensorimotor processes of adaptation"
  • human subjects in a 3T MRI scanner; BOLD signal.

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ref: Zhu-2003.1 tags: M1 neural adaptation motor learning date: 09-24-2008 22:17 gmt revision:0 [head]

PMID-14511525 Probing changes in neural interaction during adaptation.

  • looking at the changes in te connectivity between cells during/after motor learning.
  • convert sparse spike trains to continuous firing rates, use these as input to granger causality test
  • used the Dawn Taylor monkey task, except with push-buttons.
  • perterbed the monkey's reach trajectory with a string to a pneumatic cylinder.
  • their data looks pretty random. 9-17 neurons recorded. learning generally involves increases in interaction.
  • sponsored by DARPA
  • not a very good paper, alas.