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<div align="left" style="font-family: 'spr';font-size:40px;border-bottom:2px solid #584b4f;">Mechanical Device</div> | <div align="left" style="font-family: 'spr';font-size:40px;border-bottom:2px solid #584b4f;">Mechanical Device</div> | ||
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However, if we input the cipher text at a wrong time (which means the user does not know the encryption time), even if the cipher text is true (1001), the output is not convincing, sometimes even opposite from the real information (for example, 0110) because at this phase, the mechanism of cipher machine is not the same as the one when encrypting. So, compared with the first generation, this second generation of cipher machine is more reliable. | However, if we input the cipher text at a wrong time (which means the user does not know the encryption time), even if the cipher text is true (1001), the output is not convincing, sometimes even opposite from the real information (for example, 0110) because at this phase, the mechanism of cipher machine is not the same as the one when encrypting. So, compared with the first generation, this second generation of cipher machine is more reliable. | ||
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Revision as of 17:43, 19 October 2016
Mechanical Device
In addition to the microfluidics device as the core part, we have designed the mechanical device for the project. The whole system consists of four parts: the main body, lighting board, shading baffle and microfluidics chip. The details for each part are described in the Hardware page.
When assembling, four LED lights are inserted into the corresponding four holes. Four single-pole double-throw switches on the external circuit board can switch the light color (red or green). The power switch is on the battery box. Microfluidics chip is inserted into the upper slot. The shading baffle, which has the same size as the microfluidics chip, is inserted into the lower slot, to avoid the interference from unrelated light.
Fig.1 The whole view
Fig.2 Operation Demonstration
Enigma
When using, the overall device will be placed in incubator of 37 ° . Pressing the four switches can adjust the LED light into the appropriate color, waiting for bacteria to respond to light signals. Later, take out the baffle and observe the color of each chamber, and that is the "cipher text" we get.
When working, there are five kinds of bacteria in our second generation of cipher machine: the core bacteria with the oscillation circuit and four affiliated bacteria (which are actually the first generation of cipher machine). And as for these four bacteria, they are controlled by the oscillation system and contain the signal transformation circuit (which is composed of the light-induced circuit and the logic gate circuit). Before using the cipher machine, we should first mix these five bacteria together according to a certain proportion and insert them into the microfluidics chip. And then, insert the chip in our device and put the whole device in the thermostated container.
When encrypting, we should select a specific time (for example, to begin counting when the bacteria solution is poured into the microfluidics chip) to press the LED switch on the top of the device according to the input information (for example, if the input is 0101, then the LED light should be red, green, red, green). Using corresponding light to irradiate different areas on the chip (we regard each area as an encryption unit. In our initial device, we select 4 areas as encryption units). After a period of time, we can observe fluorescence which is the cipher text (for example, if we observe gfp, rfp, rfp, gfp, then the output is 1001).
Contact Us
Room 413,Biology lab center, Zijingang Campus
Zhejiang University, YuHangTang Road NO.866
Hangzhou, China
iGEM ZJU-China 2016 Team
igem_zjuchina_2016@outlook.com
igem_zjuchina_2016@outlook.com