Project Overview
Our project is a small-scale prototype that demonstrates an easier method to manage and harness health data. We do so by using sensors to monitor body parameters and transmitting that data to a server. Specifically, our prototype consists of a heart rate sensor, a galvanic sensor and a temperature sensor in self contained units that monitor the wearer’s vitals and wirelessly transmits them to a server. Here, the user data is processed and presented in an intuitive user interface. This enables health conscious users to view their personalized health information and understand what health measures they need to take. Such personalized health reports presented in an intuitive format circumvent laborious paperwork. If implemented on a nation-wide scale as a B2B model, it undercuts the cost to value margin of traditional paper based reports. Additionally, it has the scope of using machine learning and AI to make health recommendations.
Expereince
Reduce the extra paperwork needed to track user health, so this way a user can focus more on their health, rather going over stacks of pages to find viable information.
Healthy
Based on how often a user records their health information, they will be able to see a pattern in their vitals, which should be able to indicate how well they are doing, and needs to be changed in their daily routines.
Complete Care
A user primary care or primary doctor, will have access to these health records, so they can detect any abnormal behavior with user health and can make appropriate recomendations in time.
Project Success Criteria
An ability to maintain a database that is capable of storing and modifying user related data such as name and password.
An ability to generate and display a graph of user health data, based on how much data is logged from each sensor(minimum: 5-8 data point).
An ability to notify the user of the sensor unit’s battery level.
An ability to transmit data from the Heart Rate, Body Temperature, and Galvanic sensors to our Raspberry Pi.
An ability to correctly measure data (heart rate, body temperature, galvanic skin response) from the sensor on the microcontroller.
Team
Name:
Asheem Chhetri
Role:
Team Lead
Email:
achhetri@purdue.edu
Progress Report:
About:
Engineer from heart, Entrepreneur by passion, Web Designer by love for it!
Hobbies: Powerlifting, guitar, hardware tinkering, trail biking, hiking ...
Name:
Abhirit Kanti
Role:
Systems Engineer
Email:
akanti@purdue.edu
Progress Report:
About:
Having recently completed an internship at Tesla, Abhi is excited about developing the PCB that will tie all the electrical systems together. As a keen mechanical designer, he is also building the housing. In his free time, he enjoys fast cars and fine cinema.
Name:
Christina Shi
Role:
Team member's position here
Email:
shi207@purdue.edu
Progress Report:
About:
Include a brief description of yourself. Go over achievements, hobbies, history, or anything else you think is worth mentioning about yourself.
Name:
Kavian Mojabe
Role:
Team member's position here
Email:
kmojabe@purdue.edu
Progress Report:
About:
Kavian is a senior in Computer Engineering hailing from the sunny beaches of Southern California. In his free time Kavian enjoys hiking, traveling, yoga, and weightlifting.
Documents
All project related documents are accessible here.
Media
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