On Shapley ratings in brain networks

Marieke Musegaas; Bas Dietzenbacher; Peter Borm

doi:10.3389/fninf.2016.00051

On Shapley ratings in brain networks

Marieke Musegaas
, Bas Dietzenbacher
, Peter Borm

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

We consider the problem of computing the influence of a neuronal structure in a brain network. Abraham et al. (2006) computed this influence by using the Shapley value of a coalitional game corresponding to a directed network as a rating. Kötter et al. (2007) applied this rating to large-scale brain networks, in particular to the macaque visual cortex and the macaque prefrontal cortex. Our aim is to improve upon the above technique by measuring the importance of subgroups of neuronal structures in a different way. This new modeling technique not only leads to a more intuitive coalitional game, but also allows for specifying the relative influence of neuronal structures and a direct extension to a setting with missing information on the existence of certain connections.

Original language	English
Journal	Frontiers in Neuroinformatics
Volume	10
Issue number	51
DOIs	https://doi.org/10.3389/fninf.2016.00051
Publication status	Published - 29 Nov 2016

Keywords

brain networks
coalitional games
Shapley value

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10.3389/fninf.2016.00051Licence: CC BY

A Note on Shapley Ratings in Brain Networks
Musegaas, M., Dietzenbacher, B. & Borm, P., 11 Jul 2016, Tilburg: CentER, Center for Economic Research, 9 p. (CentER Discussion Paper; vol. 2016-025).
Research output: Working paper › Discussion paper › Other research output

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AU - Borm, Peter

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N2 - We consider the problem of computing the influence of a neuronal structure in a brain network. Abraham et al. (2006) computed this influence by using the Shapley value of a coalitional game corresponding to a directed network as a rating. Kötter et al. (2007) applied this rating to large-scale brain networks, in particular to the macaque visual cortex and the macaque prefrontal cortex. Our aim is to improve upon the above technique by measuring the importance of subgroups of neuronal structures in a different way. This new modeling technique not only leads to a more intuitive coalitional game, but also allows for specifying the relative influence of neuronal structures and a direct extension to a setting with missing information on the existence of certain connections.

AB - We consider the problem of computing the influence of a neuronal structure in a brain network. Abraham et al. (2006) computed this influence by using the Shapley value of a coalitional game corresponding to a directed network as a rating. Kötter et al. (2007) applied this rating to large-scale brain networks, in particular to the macaque visual cortex and the macaque prefrontal cortex. Our aim is to improve upon the above technique by measuring the importance of subgroups of neuronal structures in a different way. This new modeling technique not only leads to a more intuitive coalitional game, but also allows for specifying the relative influence of neuronal structures and a direct extension to a setting with missing information on the existence of certain connections.

KW - brain networks

KW - coalitional games

KW - Shapley value

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M3 - Article

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VL - 10

JO - Frontiers in Neuroinformatics

JF - Frontiers in Neuroinformatics

IS - 51

ER -

On Shapley ratings in brain networks

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A Note on Shapley Ratings in Brain Networks

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