Difference between revisions of "Headband Helper"
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== Links == | == Links == | ||
[[Headband_Helper_Log]] | [[Headband_Helper_Log]] | ||
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| + | Presentation: https://docs.google.com/presentation/d/1va63ZxhfQByzYhv9sMv3vxhq-qosAvJl_7e99bX9yR8/edit#slide=id.g4f72464c2f_1_10 | ||
== Project Proposal == | == Project Proposal == | ||
Revision as of 03:33, 10 February 2019
Contents
Links
Presentation: https://docs.google.com/presentation/d/1va63ZxhfQByzYhv9sMv3vxhq-qosAvJl_7e99bX9yR8/edit#slide=id.g4f72464c2f_1_10
Project Proposal
Overview
We hope to construct an accelerometer-based concussion monitoring system that is contained within a headband. In addition, we will create a web interface that allows users to track their impact history. These two pieces (software and hardware) will communicate using Bluetooth.
Team Members
- Jarrod Huther
- Katy Mockett
- TA: Ethan Shry
- Professor: James Feher
Objectives
- Create an accelerometer-based concussion monitoring system that can be contained within a headband
- Create a web interface that allows users to track their impact history which is stored in a database
- Ensure that the device and web interface can successfully communicate
Challenges
- We both have limited experience with circuitry
- We both are comfortable working in Java but have never really used any languages beyond Java
- No experience with sensor networks; creating a fully debugged network will be difficult
Budget
- Bluetooth Receiver (???)
- Accelerometer ($11.95)[1]
- 9V Batteries ($7.47)
- Raspberry Pi 0 (free)
- Server/web host - AWS (free)
- 3D box to contain tracking materials within headband (Free)
- Shipping (~$8.00)
Total Budget: $27.42
Materials
- Raspberry Pi 0
- Accelerometer
Gantt Chart
