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− | <div class="header1"> Projects</div> | + | <div class="header1"> Projects </div> |
− | <div class="header2"> Feature</div> | + | <div class="header2"> Feature </div> |
− | <div class="header3">Efficient Collaboratin | + | <div class="header3">Efficient Collaboratin </div> |
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− | <div class="content"> | + | <div class="content"> |
− | + | CO-RAD introduce a new collaboration method for synthetic biology and we develop many functions to help users | |
− | + | cooperate with partners efficiently and easily. With the support of SBOL, users can load or save their circuits | |
− | + | design as SBOL format, which is used widely by many synthetic biology software. For solving the problem of | |
− | + | inefficiency in traditional collaboration method , we upgrade our designer into a new collaboration platform. | |
− | + | User can view and edit their project with partners in real time. Meanwhile, shared artboard allows users to | |
+ | circle and draw anything to show their thoughts with remote partners, like writing on the scratch paper face to | ||
+ | face. All these are designed for a efficient collaboration method in synthetic biology. | ||
</div> | </div> | ||
+ | <img src="../../images/Pr-De-4.png" /> | ||
+ | <!--TODO: Change image--> | ||
+ | <div class="header3"> Fast Information Retrieval </div> | ||
<div class="content"> | <div class="content"> | ||
− | + | Users can feel free to search anythings they wanted and get valuable information easily in CO-RAD. Meanwhile, | |
+ | CO-RAD also recommend related circuits based on user’s design. All these are designed for users to raise more | ||
+ | valuable ideas while cooperating. | ||
</div> | </div> | ||
− | <img src=" | + | <img src="../../images/Pr-De-4.png" /> |
+ | <!--TODO: Change image--> | ||
− | <div class="header3">Excellent Calculation Simulation</div> | + | |
+ | <div class="header3"> Excellent Calculation Simulation </div> | ||
<div class="content"> | <div class="content"> | ||
− | CG content & CAI | + | To help users understand deeply about their circuits, we develop a series of ancillary functions based on the |
+ | analysis of circuits. Users can get parts’ CG content & CAI easily on CO-RAD. Expression Simulation function | ||
+ | can predict product expression with ODE system, and evolutionary algorithm can help users design a more desired | ||
+ | circuits by offering kinetics value of parts. | ||
</div> | </div> | ||
− | <img src="TODO:" /> | + | <img src="../../images/Pr-De-4.png" /> |
+ | <!--TODO: Change image--> | ||
+ | |||
+ | <div class="next-page-identify" data-value="5"></div> <!-- 这个是跳页标记 --> | ||
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Revision as of 18:49, 15 October 2018
Projects
Feature
Efficient Collaboratin
CO-RAD introduce a new collaboration method for synthetic biology and we develop many functions to help users cooperate with partners efficiently and easily. With the support of SBOL, users can load or save their circuits design as SBOL format, which is used widely by many synthetic biology software. For solving the problem of inefficiency in traditional collaboration method , we upgrade our designer into a new collaboration platform. User can view and edit their project with partners in real time. Meanwhile, shared artboard allows users to circle and draw anything to show their thoughts with remote partners, like writing on the scratch paper face to face. All these are designed for a efficient collaboration method in synthetic biology.
<img src="../../images/Pr-De-4.png" />
Fast Information Retrieval
Users can feel free to search anythings they wanted and get valuable information easily in CO-RAD. Meanwhile, CO-RAD also recommend related circuits based on user’s design. All these are designed for users to raise more valuable ideas while cooperating.
<img src="../../images/Pr-De-4.png" />
Excellent Calculation Simulation
To help users understand deeply about their circuits, we develop a series of ancillary functions based on the analysis of circuits. Users can get parts’ CG content & CAI easily on CO-RAD. Expression Simulation function can predict product expression with ODE system, and evolutionary algorithm can help users design a more desired circuits by offering kinetics value of parts.
<img src="../../images/Pr-De-4.png" />