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2016 | OriginalPaper | Chapter

From Biological to Numerical Experiments in Systemic Neuroscience: A Simulation Platform

Authors : Nicolas Denoyelle, Maxime Carrere, Florian Pouget, Thierry Viéville, Frédéric Alexandre

Published in: Advances in Neurotechnology, Electronics and Informatics

Publisher: Springer International Publishing

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Abstract

Studying and modeling the brain as a whole is a real challenge. For such systemic models (in contrast to models of one brain area or aspect), there is a real need for new tools designed to perform complex numerical experiments, beyond usual tools distributed in the computer science and neuroscience communities. Here, we describe an effective solution, freely available on line and already in use, to validate such models of the brain functions. We explain why this is the best choice, as a complement to robotic setup, and what are the general requirements for such a benchmarking platform. In this experimental setup, the brainy-bot implementing the model to study is embedded in a simplified but realistic controlled environment. From visual, tactile and olfactory input, to body, arm and eye motor command, in addition to vital interoceptive cues, complex survival behaviors can be experimented. We also discuss here algorithmic high-level cognitive modules, making the job of building biologically plausible bots easier. The key point is to possibly alternate the use of symbolic representation and of complementary and usual neural coding. As a consequence, algorithmic principles have to be considered at higher abstract level, beyond a given data representation, which is an interesting challenge.

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Taouali, W., Viéville, T., Rougier, N.P., Alexandre, F.: No clock to rule them all. J. Physiol. Paris 105, 83–90 (2011)CrossRef

Uithol, S., van Rooij, I., Bekkering, H., Haselager, P.: Hierarchies in action and motor control. J. Cogn. Neurosci. 24, 1077–1086 (2012)CrossRef

Hyvärinen, A.: Natural image statistics a probabilistic approach to early computational vision. Hardcover (2009)

Teftef, E., Escobar, M.J., Astudillo, A., Carvajal, C., Cessac, B., Palacios, A., Viéville, T., Alexandre, F.: Modeling non-standard retinal in/out function using computer vision variational methods. Rapport de recherche RR-8217, INRIA (2013)

Friston, K.: A free energy principle for biological systems. Entropy 14, 2100–2121 (2012)MathSciNetCrossRefMATH

Viéville, T., Crahay, S.: Using an hebbian learning rule for multi-class SVM classifiers. J. Comput. Neurosci. (2004)

Viéville, T., Vadot, C.: An improved biologically plausible trajectory generator. Technical Report 4539-2, INRIA (2006)

Connolly, C.I., Grupen, R.A.: The applications of harmonic functions to robotic. J. Robot. Syst. 10, 931–946 (1993)CrossRefMATH

Todorov, E.: Optimality principles in sensorimotor control. Nat. Neurosci. 7 (2004)

10.

Cofer, D., Cymbalyuk, G., Reid, J., Zhu, Y., Heitler, W.J., Edwards, D.H.: AnimatLab: a 3D graphics environment for neuromechanical simulations. J. Neurosci. Methods 187, 280–288 (2010)CrossRef

11.

Brette, R., Rudolph, M., Carnevale, T., Hines, M., Beeman, D., Bower, J.M., Diesmann, M., Morrison, A., Goodman, P.H., Harris, F.C., Zirpe, M., Natschläger, T., Pecevski, D., Ermentrout, B., Djurfeldt, M., Lansner, A., Rochel, O., Vieville, T., Muller, E., Davison, A.P., El Boustani, S., Destexhe, A.: Simulation of networks of spiking neurons: a review of tools and strategies. J. Comput. Neurosci. 23, 349–398 (2007)MathSciNetCrossRef

12.

Davison, A.P., Brüderle, D., Eppler, J., Kremkow, J., Muller, E., Pecevski, D., Perrinet, L., Yger, P.: PyNN: A Common interface for neuronal network simulators. Frontiers Neuroinform. 2 (2008)

13.

Chemla, S., Chavane, F., Vieville, T., Kornprobst, P.: Biophysical cortical column model for optical signal analysis. BMC Neurosci. 8, P140 (2007)CrossRef

14.

Herry, C., Ciocchi, S., Senn, V., Demmou, L., Muller, C., Luthi, A.: Switching on and off fear by distinct neuronal circuits. Nature 454, 600–606 (2008)CrossRef

15.

LeDoux, J.: The amygdala. Curr. Biol. 17, R868–R874 (2007)CrossRef

16.

Eichenbaum, H., Sauvage, M., Fortin, N., Komorowski, R., Lipton, P.: Towards a functional organization of episodic memory in the medial temporal lobe. Neurosci. Biobehav. Rev. 36, 1597–1608 (2012)CrossRef

17.

Rolls, E.T.: A computational theory of episodic memory formation in the hippocampus. Behav. Brain Res. 215, 180–196 (2010)CrossRef

18.

Gorojosky, R., Alexandre, F.: Models of Hippocampus for pavlovian learning. Rapport de recherche RR-8377, INRIA (2013)

19.

Beati, T., Carrere, M., Alexandre, F.: Which reinforcing signals in autonomous systems? In: Third International Symposium on Biology of Decision Making, Paris, France (2013)

20.

Carrere, M., Alexandre, F.: Émergence de catégories par interaction entre systèmes d’apprentissage. In: Preux, P., Tommasi, M. (eds.) Conférence Francophone sur l’Apprentissage Automatique (CAP). Lille, France (2013)

21.

Denoyelle, N., Pouget, F., Viéville, T., Alexandre, F.: VirtualEnaction: A platform for systemic neuroscience simulation. In: International Congress on Neurotechnology, Electronics and Informatics, Rome, Italy (2014)

Title: From Biological to Numerical Experiments in Systemic Neuroscience: A Simulation Platform
Authors: Nicolas Denoyelle
Maxime Carrere
Florian Pouget
Thierry Viéville
Frédéric Alexandre
Publisher: Springer International Publishing
Book: Advances in Neurotechnology, Electronics and Informatics
Print ISBN: 978-3-319-26240-6

Electronic ISBN: 978-3-319-26242-0

Copyright Year: 2016
DOI: https://doi.org/10.1007/978-3-319-26242-0_1