Difference between revisions of "Team:HZAU-China/Project/Future"

 
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     <div class="left_topbox"><img src="https://static.igem.org/mediawiki/2015/6/6e/Team_HZAU-China_ecoli.png"/></div>
 
     <div class="left_topbox"><img src="https://static.igem.org/mediawiki/2015/6/6e/Team_HZAU-China_ecoli.png"/></div>
     <div class="middle_topbox"><h1>Mixed-Reality Cell<span>Bidirectinal coupling between real and virtual bio-oscillators</span></h1></div>
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     <div class="middle_topbox"><h1>Mixed-Reality Cell<span>Bidirectional coupling between real and virtual bio-oscillators</span></h1></div>
 
     <div class="right_topbox"><img src="https://static.igem.org/mediawiki/2015/1/12/Team_HZAU-China_brain.png"></div>
 
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       <h1></br></br>Future work</h1></br>
 
       <h1></br></br>Future work</h1></br>
       <p>Next step, we won't be satisfied with achieving coupling between bacterium's oscillators and computers. We will focus on the coupling between a metabolic system such as Krebs Cycle (Fig.1) and computer. We are interested in cell differentiation (Fig.2). If we could achieve the coupling between cell differentiation and computer, organisms will have more diversities. And the cell differentiation will get more amazing</p>
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       <p>We won't be satisfied with only achieving the coupling between a bacterium oscillator with a computer simulation. Next step, we will focus on the coupling between a metabolic system such as Krebs Cycle (Fig.1, from the Internet) and its computer simulation (Fig.2, from the Internet). We are interested in cell differentiation (Fig.3, from the Internet). If we could achieve the coupling between cell differentiation and computer simulation, we will get a new organism that is half-real and half virtual, leading to larger diversities of life forms.</p>
 
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<img src="https://static.igem.org/mediawiki/2015/a/a4/Team_HZAU_China_futurework.png">
 
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<p>We chose to couple oscillators because the synchronization is easy to observe. Not only oscillators but also many states can be coupled. In fact, there is the real-time communication and codetermining next behavior in the couple state. Life complexly couple with itself and the environment, that’s why we need to decouple parts in synthetic biology. In our project, we not only plan to achieve to couple between the E.coli and one computer but also dream to achieve couple with everything. We will try to couple different kinds of organisms with different kinds of computers. And we also plan to test the cascade of couples. At last, it may combine the organisms, inorganic environment and virtual world then achieves all in one.</p>
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<p>We chose to couple oscillators because the synchronization is easy to observe. Not only oscillations but also many other biological processes could be coupled. In fact, the core are the real-time communication (between the real and virtual parts) and co-determination of the system behavior in the coupled state of the mixed-reality system. Life has strong coupling within itself and with the environment; that’s why we need to decouple parts in synthetic biology. In our project, we not only plan to achieve coupling between a bacterium and a computer but also dream to achieve coupling between a bio-system with everything. We will try to couple different kinds of organisms with different kinds of computers. We also plan to test the cascades of the couples. Finally, it may fuse the organisms, inorganic environments and their virtual counterparts into one system, boosting the biological research into a new stage: synergetic biology, where bidirectional synchronization and coupling between the real biological processes and the virtual simulation processes (implemented as the computing processes in the real world) are fundamental.</p>
 
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       <h1>&nbsp;&nbsp;&nbsp;Contacts</h1>
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       <h1>&nbsp;&nbsp;&nbsp;Contact Information</h1>
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            No.1, Shizishan Street, Hongshan District
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                      No.1, Shizishan Street, Hongshan District
            </br>
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                      </br>
            430070,P.R.China
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                      Wuhan, 430070, Hubei Province, P. R. China
            </li>
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            <li class="email_inf">Email:hzauigem@gmail.com</li>
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                      <li class="email_inf">Email: hzauigem@gmail.com</li>
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            <li class="twitter-inf">Twitter : hzau_igem</li>
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              <li class="twitter-inf">Twitter : hzau_igem</li>
            <li class="wechat-inf">Wechat : hzauigem</li>
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                      <li class="wechat-inf">Wechat : hzauigem</li>
            <li class="qq-inf">QQ Group : 313297095</li>
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                      <li class="qq-inf">QQ Group : 313297095</li>
            <li class="yt-inf">YouTube : hzauigem</li>
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                      <li class="yt-inf">YouTube : hzauigem</li>
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Latest revision as of 18:27, 15 November 2015

Mixed-Reality CellBidirectional coupling between real and virtual bio-oscillators



Future work


We won't be satisfied with only achieving the coupling between a bacterium oscillator with a computer simulation. Next step, we will focus on the coupling between a metabolic system such as Krebs Cycle (Fig.1, from the Internet) and its computer simulation (Fig.2, from the Internet). We are interested in cell differentiation (Fig.3, from the Internet). If we could achieve the coupling between cell differentiation and computer simulation, we will get a new organism that is half-real and half virtual, leading to larger diversities of life forms.



We chose to couple oscillators because the synchronization is easy to observe. Not only oscillations but also many other biological processes could be coupled. In fact, the core are the real-time communication (between the real and virtual parts) and co-determination of the system behavior in the coupled state of the mixed-reality system. Life has strong coupling within itself and with the environment; that’s why we need to decouple parts in synthetic biology. In our project, we not only plan to achieve coupling between a bacterium and a computer but also dream to achieve coupling between a bio-system with everything. We will try to couple different kinds of organisms with different kinds of computers. We also plan to test the cascades of the couples. Finally, it may fuse the organisms, inorganic environments and their virtual counterparts into one system, boosting the biological research into a new stage: synergetic biology, where bidirectional synchronization and coupling between the real biological processes and the virtual simulation processes (implemented as the computing processes in the real world) are fundamental.




   Contact Information

  • No.1, Shizishan Street, Hongshan District
    Wuhan, 430070, Hubei Province, P. R. China
  • Wechat : hzauigem
  • QQ Group : 313297095
  • YouTube : hzauigem