Recording from Two Neurons: Second-Order Stimulus Reconstruction from Spike Trains and Population Coding


Autoria(s): FERNANDES, N. M.; PINTO, B. D. L.; ALMEIDA, Lirio Onofre Baptista de; SLAETS, Jan Frans Willem; KOBERLE, Roland
Contribuinte(s)

UNIVERSIDADE DE SÃO PAULO

Data(s)

20/10/2012

20/10/2012

2010

Resumo

We study the reconstruction of visual stimuli from spike trains, representing the reconstructed stimulus by a Volterra series up to second order. We illustrate this procedure in a prominent example of spiking neurons, recording simultaneously from the two H1 neurons located in the lobula plate of the fly Chrysomya megacephala. The fly views two types of stimuli, corresponding to rotational and translational displacements. Second-order reconstructions require the manipulation of potentially very large matrices, which obstructs the use of this approach when there are many neurons. We avoid the computation and inversion of these matrices using a convenient set of basis functions to expand our variables in. This requires approximating the spike train four-point functions by combinations of two-point functions similar to relations, which would be true for gaussian stochastic processes. In our test case, this approximation does not reduce the quality of the reconstruction. The overall contribution to stimulus reconstruction of the second-order kernels, measured by the mean squared error, is only about 5% of the first-order contribution. Yet at specific stimulus-dependent instants, the addition of second-order kernels represents up to 100% improvement, but only for rotational stimuli. We present a perturbative scheme to facilitate the application of our method to weakly correlated neurons.

FAPESP[0203565-4]

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Identificador

NEURAL COMPUTATION, v.22, n.10, p.2537-2557, 2010

0899-7667

http://producao.usp.br/handle/BDPI/30160

10.1162/NECO_a_00016

http://dx.doi.org/10.1162/NECO_a_00016

Idioma(s)

eng

Publicador

M I T PRESS

Relação

Neural Computation

Direitos

restrictedAccess

Copyright M I T PRESS

Palavras-Chave #PLATE TANGENTIAL CELLS #NEURAL CODE #FLY #ORGANIZATION #INTERNEURONS #Computer Science, Artificial Intelligence #Neurosciences
Tipo

article

original article

publishedVersion