Advancing the future of digital molecular profiling
I worked as a Full Stack Software Engineer on development of ATON product from scratch. We took the platform in a bold new direction, focusing on becoming the best platform for high-value in vitro diagnostic tests.
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The problem
In 2019, ATONARP began a project to build an entirely new system that uses optical spectroscopy to quantify molecules. For example the current Dialysis machines are invasive that requires blood and some chemistry is involved to monitor the patient status but ATON is a system that is non-invasive and leverages laser technology to monitor. The primary goals for the project were reducing the cost of the dialysis machines currently available in the market, more accurate results, and making the platform both easier for new users, but with plenty of room to scale for advanced users.
Rapid real-time results
Laser light causes the molecules in the sample to vibrate. Sensors collect molecular signatures from scattered light. The software reports the concentrations of each target in the multiplex test panel.
Scans History
In this feature the user can check the past reports to visualize or replay the scan to make analysis. This is especially beneficial for subject matter experts.
System configuration
The system has been made configurable so that we can optimize for more performance if the results are not very desirable. Also the device can be calibrated from the screen rather than re-booting the firmware with different settings.
Project outcomes
In the latest release we were fully able to implement the core features that the device should be able to perform. For the final release of product more accurate ML models were required which was pending, hopefully we will see the release soon.