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Over the last year my escapades and capers have been primarily directed at the study of synaptic potentiation from a neurodynamics perspective. More specifically, I'm examining the neural membrane diffusion of neurotransmitter receptors and modeling how these particle-swarms come to potentiate synapses. | Over the last year my escapades and capers have been primarily directed at the study of synaptic potentiation from a neurodynamics perspective. More specifically, I'm examining the neural membrane diffusion of neurotransmitter receptors and modeling how these particle-swarms come to potentiate synapses. | ||
<div id{{=}}"inner" style{{=}}"position:absolute; left: 20px; top: 20px; opacity:0.4;">[[File:MolecDiff.gif]]</div> | |||
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{{Box|width=45%|float=right|font-size=14px|[[:Category:ReDiClus|Computational Modeling]]|[[File:Neuralinformatics.gif|right|link=ReDiClus]] | |||
Broadly, neuroinformatics is the computational modeling and simulation of the nervous system. It involves translating quantitative data collected from neurobiology experiments into mathematical representations. From there, this symbolic representation can be used to create computer simulations of neural activity, network processing, molecular dynamics, and other physical processes. I am using MatLab, Python, R, and other tools to build models and animations that are directly based off my own and others empirical observations. | |||
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{{Box|width=45%|float=right|font-size=14px|[[Brain Molecular Pathways|Brain Molecular Pathways Project]]| | {{Box|width=45%|float=right|font-size=14px|[[Brain Molecular Pathways|Brain Molecular Pathways Project]]| |
Revision as of 23:25, 2 November 2013
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