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

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     <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>
 
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       <h1></br></br>Overview</h1></br>
 
       <h1></br></br>Overview</h1></br>
       <p>Since the rising up of Computer Science, the life style and society conditions of human have a huge leap. Till now, the computer has gradually been in plenty of fields of life. At the same time, the development of Biology Science turns to be amazing as well. Biology is believed to bring another marvel of the world. And with the rapid development of the computer as well as biology, the connection between them is more and more close, like the processing of biological data through computer, the simulation of life in computer and even the man-machine interface. It seems that there is inclined to make them be one. Thus, we wonder what would happen if we combine the life in the real world with the computer-simulated life in the virtual world. Could it be regarded as a new life form which is half-real and half-virtual?</p>
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       <p>Since the emergence of Computer Science, the life styles and society conditions of human beings have experienced a huge leap. Till now, computers have been widely used in many fields of human life. At the same time, there has been great development in Biological Science as well. Biology is believed to bring another marvel for the world. With the rapid developments of computer science and biology, the connections between them are getting more and more close, manifested as the emergence of the following events: the processing of biological data through computers, the computational simulation of life activities, and even the researches on man-machine interface. There seems a trend that computer science and biology being combined into one. Thus, we wonder what would happen if we combine the life in the real world with the computer-simulated life in the virtual world. Could it be regarded as a new life form that is half-real and half-virtual?</p>
 
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<p>Meanwhile, Virtual-reality is known as a way to be in the virtual world, like GoogleGlass, HoloLens and xbox. However, no matter how cool they may look like, the core is just the sense like your sight that would communicate with the virtual world. The degree that you feel being involved in the virtual is too shallow with only part of the reality. Therefore, we intend to create a new method that a whole real life system would connect with a whole virtual life system. That's Mixed-reality cells. And then we put forward a whole design to make it come true.</p>
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<p>Meanwhile, virtual-reality devices are the major ways to experience the virtual world, like Google-Glass, Holo-Lens and Xbox. However, no matter how cool they may look like, the core of their working mechanisms is just the sense, like your eye-sight that could communicate with the world. The degree that you feel being involved in the virtual world is too shallow to make you believe that you are experiencing a reality. Therefore, we intend to create a new method that a whole real life system would fuse with a whole virtual life system. That's the concept of Mixed-Reality Cell (MR. Cell). We put forward a whole design to make it come true.</p>
 
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<p>Based on above targets, we chose oscillator, a typical biological process, to present life form. And then a genetic oscillator was built in E. coli as the real part and an e-oscillator was simulated in a computer as the virtual part. The two parts could interact with each other through an interface device composed of microfluidic chip and chemical/optical modulator. At the beginning, the two oscillators work independently in a dual-reality state. With their interaction, they would gradually adjust to each other without human interference to a strongly coupled and synchronized mixed-reality state.</p>
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<p>To achieve our goal, we chose oscillation, a typical biological process, to represent life activity. A genetic oscillator was built in E. coli as the real part and an e-oscillator was simulated in a computer as the virtual part. The two parts could interact with each other through an interface device composed of microfluidic chip and chemical/optical modulator. At the beginning, the two oscillators work independently in a dual-reality state. With their interaction, they would gradually adjust to each other without human interference to a strongly coupled and synchronized mixed-reality state.</p>
 
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<p>To reach our goals step by step, our project is divided into three phases, virtual-virtual coupling, Mixed-reality in physics and Mixed-reality. Till now, phase 1 that two e-oscillators gradually coupled with each other and phase 2 that e-oscillator coupled with a physical oscillator presented by the light intensity changes of LED have all been achieved. What's more, we designed several experiments to test the parts we used, including a hybrid promoter and our Light Controlling system, which have revealed that these parts can work well. And also, the prototype of MR. Cell was demonstrated in this project which has great potential in a wide range of the future biological research.</p>
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<p>To reach our goal step by step, our project is divided into three phases, virtual-virtual coupling, mixed-reality in physics and mixed-reality of bio-oscillators. Till now, phase 1 that two e-oscillators coupled with each other and phase 2 that an e-oscillator coupled with a physical oscillator represented by the light intensity change of an LED have all been achieved. What's more, we designed several experiments to test the parts we used, including a hybrid promoter and the Light Controlling system; the results showed that these parts can work well. Also, a prototype of MR. Cell was demonstrated in this project which has great potential in a wide range of the future biological research.</p>
 
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                       No.1, Shizishan Street, Hongshan District,
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                       No.1, Shizishan Street, Hongshan District
 
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                       Wuhan, 430070, Hubei Province, P. R. China
 
                       Wuhan, 430070, Hubei Province, P. R. China

Latest revision as of 04:09, 15 November 2015

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



Overview


Since the emergence of Computer Science, the life styles and society conditions of human beings have experienced a huge leap. Till now, computers have been widely used in many fields of human life. At the same time, there has been great development in Biological Science as well. Biology is believed to bring another marvel for the world. With the rapid developments of computer science and biology, the connections between them are getting more and more close, manifested as the emergence of the following events: the processing of biological data through computers, the computational simulation of life activities, and even the researches on man-machine interface. There seems a trend that computer science and biology being combined into one. Thus, we wonder what would happen if we combine the life in the real world with the computer-simulated life in the virtual world. Could it be regarded as a new life form that is half-real and half-virtual?


Meanwhile, virtual-reality devices are the major ways to experience the virtual world, like Google-Glass, Holo-Lens and Xbox. However, no matter how cool they may look like, the core of their working mechanisms is just the sense, like your eye-sight that could communicate with the world. The degree that you feel being involved in the virtual world is too shallow to make you believe that you are experiencing a reality. Therefore, we intend to create a new method that a whole real life system would fuse with a whole virtual life system. That's the concept of Mixed-Reality Cell (MR. Cell). We put forward a whole design to make it come true.


To achieve our goal, we chose oscillation, a typical biological process, to represent life activity. A genetic oscillator was built in E. coli as the real part and an e-oscillator was simulated in a computer as the virtual part. The two parts could interact with each other through an interface device composed of microfluidic chip and chemical/optical modulator. At the beginning, the two oscillators work independently in a dual-reality state. With their interaction, they would gradually adjust to each other without human interference to a strongly coupled and synchronized mixed-reality state.


To reach our goal step by step, our project is divided into three phases, virtual-virtual coupling, mixed-reality in physics and mixed-reality of bio-oscillators. Till now, phase 1 that two e-oscillators coupled with each other and phase 2 that an e-oscillator coupled with a physical oscillator represented by the light intensity change of an LED have all been achieved. What's more, we designed several experiments to test the parts we used, including a hybrid promoter and the Light Controlling system; the results showed that these parts can work well. Also, a prototype of MR. Cell was demonstrated in this project which has great potential in a wide range of the future biological research.




   Contact Information

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