TUTCRIS - Tampereen teknillinen yliopisto

TUTCRIS

Improvement of computational efficiency of a biochemical plasticity model

Tutkimustuotos: Konferenssiesitys, posteri tai abstrakti

Yksityiskohdat

AlkuperäiskieliEnglanti
TilaJulkaistu - 20 syyskuuta 2018
TapahtumaBrain and Mind Symposium 2018 - University of Helsinki, Helsinki, Suomi
Kesto: 20 lokakuuta 201821 lokakuuta 2018

Conference

ConferenceBrain and Mind Symposium 2018
MaaSuomi
KaupunkiHelsinki
Ajanjakso20/10/1821/10/18

Tiivistelmä

Multi-scale models in neuroscience integrate detailed neurobiological phenomena from molecular level up to network and system levels. such models are very challenging to simulate despite the availability of massively parallel
computing systems. model order reduction (mor) is an established method in
engineering sciences, such as control theory. mor is used in improving
computational efficiency of simulations of complex nonlinear mathematical
models. in this study the dimension of a nonlinear mathematical model of
plasticity in the brain is reduced using mathematical mor methods.

Traditionally, models are simplified by eliminating variables, such as
molecular entities and ionic currents, from the system. additionally,
assumptions of the system behavior can be made, for example regarding the
steady state of the chemical reactions. however, comprehensive models with full
system dynamics are needed in order to increase understanding of different
mechanisms in one brain area. thus the elimination approach is not suitable for
the consequent analysis of neural phenomena.

The loss of information induced by eliminating variables of the system can be
avoided by mathematical mor methods that approximate the entire system with a smaller number of dimensions compared to the original system. here,
mathematical MOR is applied in the context of an experimentally verified
signaling pathway model of plasticity (Kim et al., PLoS Comp. Biol., 2013).
This nonlinear chemical equation based model describes the biochemical calcium signaling steps required for plasticity and learning in the subcortical area of the brain. By applying these methods, the simulation time of the model is radically shortened.

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