Team:Calgary/Modelling
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- | The modelling aspect for our project is aim to develop programs that enable us to predict and evaluate the Autoinducer-2 (AI-2) signalling system. By creating such models to represent the signalling system, a foundational advancement can be made in the field of Synthetic Biology. We aim to not only create models that accurately represent our system; we plan to use different types of software that make modelling easier. We do this in hope that it will allow individuals with less knowledge in modelling to be able to model their system of choice. As well, mathematical modelling is an important facet to this project because it allows different teams that decide to use our system to know how to optimize the circuit in order to obtain the best results. This year, we decided to model our system in two different ways: Membrane Computing and | + | The modelling aspect for our project is aim to develop programs that enable us to predict and evaluate the Autoinducer-2 (AI-2) signalling system. By creating such models to represent the signalling system, a foundational advancement can be made in the field of Synthetic Biology. We aim to not only create models that accurately represent our system; we plan to use different types of software that make modelling easier. We do this in hope that it will allow individuals with less knowledge in modelling to be able to model their system of choice. As well, mathematical modelling is an important facet to this project because it allows different teams that decide to use our system to know how to optimize the circuit in order to obtain the best results. This year, we decided to model our system in two different ways: Membrane Computing and Matlab-based Modelling. |
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System characterization is essential for understanding the effects specific conditions and inputs by simulation. By using results that are collected from modelling and simulation, optimizations through experimental means are reduced. The combination of mathematics and engineering principles, combined with systems biology can potentially solve many complexities in experimental sciences. If a system can be successfully modelled, there is the potential of reducing money and resource allocations to experimental science. As well, through the use of simulation, certain conditions can be applied to optimize certain results. The goals for the mathematical modelling team are: | System characterization is essential for understanding the effects specific conditions and inputs by simulation. By using results that are collected from modelling and simulation, optimizations through experimental means are reduced. The combination of mathematics and engineering principles, combined with systems biology can potentially solve many complexities in experimental sciences. If a system can be successfully modelled, there is the potential of reducing money and resource allocations to experimental science. As well, through the use of simulation, certain conditions can be applied to optimize certain results. The goals for the mathematical modelling team are: |
Revision as of 03:57, 8 August 2009
UNIVERSITY OF CALGARY