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Team:Wellesley Desyne
From 2013.igem.org
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address specific technical synthetic biology challenges while simultaneously advancing the way in | address specific technical synthetic biology challenges while simultaneously advancing the way in | ||
which users interact with computing environments. Our software will facilitate the workflow of the | which users interact with computing environments. Our software will facilitate the workflow of the | ||
| - | scientific process by supporting each step: research, brainstorming, building, | + | scientific process by supporting each step: research, brainstorming, building, testing, troubleshooting, |
iteration, and analysis. The combination of human computer interaction, bio-design automation, and | iteration, and analysis. The combination of human computer interaction, bio-design automation, and | ||
experimental design makes our effort unique in the iGEM experience and closes the loop on the | experimental design makes our effort unique in the iGEM experience and closes the loop on the | ||
Revision as of 17:43, 8 September 2013
Wellesley HCI iGEM 2013
Synthetic biology requires a multidisciplinary, collaborative design environment to engineer the complex biological systems of the future.
Our team created a collection of software tools which address specific technical synthetic biology challenges while simultaneously advancing the way in which users interact with computing environments. Our software will facilitate the workflow of the scientific process by supporting each step: research, brainstorming, building, testing, troubleshooting, iteration, and analysis. The combination of human computer interaction, bio-design automation, and experimental design makes our effort unique in the iGEM experience and closes the loop on the design-build-test methodology.
