Team:Aberdeen Scotland/modeling
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== Introduction == | == Introduction == | ||
- | Our modeling team consists of six undergraduates, four of whom study maths and physics, one studying physics and one chemical engineering. Due to the complex nature of the project, we need good predictions from mathematical simulations to help predict and understand our system. We are mainly programing our simulations in C and Matlab but we have also used Matlab's Sim-Biology toolbox. | + | Our modeling team consists of six undergraduates, four of whom study maths and physics, one studying physics and one chemical engineering. Due to the complex nature of the project, we need good predictions from mathematical simulations to help predict and understand our system. We are mainly programing our simulations in C and Matlab but we have also used Matlab's Sim-Biology toolbox for some sensitivity analysis. |
{{:Team:Aberdeen_Scotland/break}} | {{:Team:Aberdeen_Scotland/break}} | ||
We have split our modeling into 3 main sections. | We have split our modeling into 3 main sections. |
Revision as of 12:14, 14 August 2009
University of Aberdeen - Pico Plumber
iGEM 2009
Introduction
Our modeling team consists of six undergraduates, four of whom study maths and physics, one studying physics and one chemical engineering. Due to the complex nature of the project, we need good predictions from mathematical simulations to help predict and understand our system. We are mainly programing our simulations in C and Matlab but we have also used Matlab's Sim-Biology toolbox for some sensitivity analysis.
We have split our modeling into 3 main sections.
The internal dynamics of our system, which includes mRNA transcription and protein translation.
Modeling the chemotaxis of e. coli and the move towards a food source.