Difference between revisions of "Team:UiOslo Norway/Entrepreneurship"
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<div class="col-md-6"></div> | <div class="col-md-6"></div> | ||
<div class="col-md-6"> <div id="software"><h2 class="boxheader right">Software</h2></div> | <div class="col-md-6"> <div id="software"><h2 class="boxheader right">Software</h2></div> | ||
| − | <p class="boxnotes rightext"> | + | <p class="boxnotes rightext"> |
| + | Technology is changing rapidly. We believe, keeping up with these changes, will give valuable profit. Therefore our team have been seeking ways to transform processes by updating them with today's technology. We have created the elementary parts of an Android Application to show that one process in the diagnostics field can be improved to enable more efficient and cost effective work. | ||
| + | The best software tool should be awarded to uio because it's valuable for the future of science to integrate our everyday technology when we invent new technology. UiO does this by use of the camera of a mobile phone instead of separate photodiode in the design of our diagnostic test. This requires writing software to utilize the photodiode in the mobile phone appropriately. The software tool we have created analyzes the rgb value of pixels in a bitmap to measure wavelengths of the material that we take a picture of. This software could maybe be expanded to a spectrophotometer.</p> | ||
</div> | </div> | ||
</div> | </div> | ||
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<div class="col-md-6"> <div id="hardware"><h2 class="boxheader left">Hardware</h2></div> | <div class="col-md-6"> <div id="hardware"><h2 class="boxheader left">Hardware</h2></div> | ||
| − | <p class="boxnotes leftext"> | + | <p class="boxnotes leftext"> |
| + | PhoneLab is a unique module that connects your phone to your liquid samples, with adaptable caseoptions to make it accessable to many users world wide. It is especially formed due to our hypothetical defect CAS9 serching function, and the nitrocefin penta well test. | ||
| + | The Module has an on/off button and options to change the illumination of the liquid sample, allowing the camera for optimal color recognition. The five different liquid samples mounted in the PhoneLab module illuminates with a burnpoint at the camera. | ||
| + | PhoneLab is designed for high quality 3D prints, and is recommended to be coated with a rubbersurface for grip, then a hydrophobic functional surface to keep it clean. | ||
| + | We should winn because all the data recorded with the PhoneLab module will be geotagged and stored, in a cloud open access. If this information accumulates, algorithms can be developed to predict the bacterial infection.</p> | ||
</div> | </div> | ||
<div class="col-md-6"></div> | <div class="col-md-6"></div> | ||
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<div class="col-md-6"></div> | <div class="col-md-6"></div> | ||
<div class="col-md-6"> <div id="entre"><h2 class="boxheader right">Entrepreneurship</h2></div> | <div class="col-md-6"> <div id="entre"><h2 class="boxheader right">Entrepreneurship</h2></div> | ||
| − | <p class="boxnotes rightext"> | + | <p class="boxnotes rightext"> |
| + | With PhoneLab, UiOslo2016 present a product that could easily be commercialized. By creating our own unique hardware and software, we aim for enormous market of handheld devices. By utilizing the power in a smartphone and our design, PhoneLab could grow to be a mobile, easy-to-use and cheap detection tool usable in many different biological samples. Through the funds provided by our generous sponsors, we have been able to create a chassis of something that could aspire to greatness. We entered an innovation competition arranged by Inven2, the patent company of UiO, and got to the finale in a race for 250 000 NOK in start-up funds to create a company with PhoneLab as its product. We also plan to pitch our finalized project for them and file for a patent. This is just the beginning; through our innovative entrepreneurship, PhoneLab could change the face of modern diagnostics.</p> | ||
</div> | </div> | ||
</div> | </div> | ||
Revision as of 13:54, 16 October 2016
Software
Technology is changing rapidly. We believe, keeping up with these changes, will give valuable profit. Therefore our team have been seeking ways to transform processes by updating them with today's technology. We have created the elementary parts of an Android Application to show that one process in the diagnostics field can be improved to enable more efficient and cost effective work. The best software tool should be awarded to uio because it's valuable for the future of science to integrate our everyday technology when we invent new technology. UiO does this by use of the camera of a mobile phone instead of separate photodiode in the design of our diagnostic test. This requires writing software to utilize the photodiode in the mobile phone appropriately. The software tool we have created analyzes the rgb value of pixels in a bitmap to measure wavelengths of the material that we take a picture of. This software could maybe be expanded to a spectrophotometer.
Hardware
PhoneLab is a unique module that connects your phone to your liquid samples, with adaptable caseoptions to make it accessable to many users world wide. It is especially formed due to our hypothetical defect CAS9 serching function, and the nitrocefin penta well test. The Module has an on/off button and options to change the illumination of the liquid sample, allowing the camera for optimal color recognition. The five different liquid samples mounted in the PhoneLab module illuminates with a burnpoint at the camera. PhoneLab is designed for high quality 3D prints, and is recommended to be coated with a rubbersurface for grip, then a hydrophobic functional surface to keep it clean. We should winn because all the data recorded with the PhoneLab module will be geotagged and stored, in a cloud open access. If this information accumulates, algorithms can be developed to predict the bacterial infection.
Entrepreneurship
With PhoneLab, UiOslo2016 present a product that could easily be commercialized. By creating our own unique hardware and software, we aim for enormous market of handheld devices. By utilizing the power in a smartphone and our design, PhoneLab could grow to be a mobile, easy-to-use and cheap detection tool usable in many different biological samples. Through the funds provided by our generous sponsors, we have been able to create a chassis of something that could aspire to greatness. We entered an innovation competition arranged by Inven2, the patent company of UiO, and got to the finale in a race for 250 000 NOK in start-up funds to create a company with PhoneLab as its product. We also plan to pitch our finalized project for them and file for a patent. This is just the beginning; through our innovative entrepreneurship, PhoneLab could change the face of modern diagnostics.
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