Difference between revisions of "Team:Madrid-OLM/Description"
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<h2>The Internet of BioThings</h2> | <h2>The Internet of BioThings</h2> | ||
| − | <p class="lead"> | + | <p class="lead">Our goal is to manufacture a proof of concept (PoC) of the final device. The initial PoC will be made for OLE1, the major allergen in olive pollen. But the eventual goal is to scale this PoC to a wide range of molecules, as the Internet of BioThings requires.</p> |
| − | + | <p class="lead">The device that we have developed has a key functionality: uploading the measurement in real-time to the cloud. To prove this capability, we have developed an initial mockup of an iOS app that simulates a number of nodes that share the surrounding information that the user requires. </p> | |
| − | <p class="lead"> | + | <p class="lead">Our technology is real thank to the aptamers, flexible molecules that can be artificially engineered to recognize almost any kind of molecule.</p> |
| − | <p class="lead">Our | + | |
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Revision as of 09:55, 14 October 2018
Description of the proyect
A way of understanding our environment
The environment is made with millions of molecules. Many of them can be hazardous and many of them beneficial. Our lives are conditioned by our surrounding molecules, and they are too small to be observed.
The society is made with millions of persons and everyone is different from the other. Unlike molecules, no two people are alike. And this is why what is beneficial for someone could be risky or dangerous for another person.
Our vision
We foresee a future where people can track how molecules move through the environment in real-time, from their own mobile device.We could choose whether to give a walk around a field of blooming roses or avoid the undesirable virus that hides around the corner. We want to bring the user a new way of looking to the environment, and thus a new way of living.
Our vision is beginning to exist. It is emerging now. And it is manifested when anyone receives a personalized ad, or specific information about the traffic density, CO2 concentration, etc. It has received the name of “Internet of Things”, and this is happening with physical, chemical and social indicators. Unfortunately, there are no biological measurements. Why?
The problem of Internet of Things
Why has not the Internet of Things being enriched by the potentiality of Biology?. The answer is not straightforward.
Getting accurate biological measurements in a laboratory is feasible. But getting these results in an automated device, placed in the street, in an affordable way is more challenging.
It might be due to the difficulty in the replicability of lab conditions. And there is another key factor to consider: the complexity of automating the lab protocols.
And this is finally what we have considered being worth solving with our project. And we have called it “The Internet of BioThings”
The Internet of BioThings
Our goal is to manufacture a proof of concept (PoC) of the final device. The initial PoC will be made for OLE1, the major allergen in olive pollen. But the eventual goal is to scale this PoC to a wide range of molecules, as the Internet of BioThings requires.
The device that we have developed has a key functionality: uploading the measurement in real-time to the cloud. To prove this capability, we have developed an initial mockup of an iOS app that simulates a number of nodes that share the surrounding information that the user requires.
Our technology is real thank to the aptamers, flexible molecules that can be artificially engineered to recognize almost any kind of molecule.