The NASA Smart Watch
NASA Watch History
This 1965 Omega Speedmaster Reference 105.003 is dubbed the "Ed White“ after his historic first ever American spacewalk.
Wearable Technologies
Smart Watches
Smart Phones
Assistive technologies for the disabled
Fitness monitors
Eyeware
Concept of Operations (ConOps)
Stretch Goals
Audio communication
Video communication
Health monitoring
RFID Part tracking
Primary Goals
Wearable technology
Expandable infrastructure
PixelSense networked
Universally mountable
Utilization of sensors
Real-time timers, warnings, and scheduling
User friendly
Brainstorming
Robotic Arm control
Mental health games
Proposed Requirements
Long Battery life
Light-weight
Sizable display
Wireless ready
Expandable
Ergonomic
Water proof
Large memory capability
Efficient high performance processor
Open source OS
Smart Watch Market Study
Model Connectivity
Standalone
Battery Processor
Samsung Gear S WIFI/Bluetooth Yes
Apple Watch WIFI/Bluetooth Yes
Sony SmartWatch 2 Bluetooth No
Martian G2G Bluetooth No
LG G Bluetooth No
Moto 360 Bluetooth No
Samsung Gear Neo Bluetooth No
Samsung Gear 2 Bluetooth No
Concerns
The Smart Watch’s need of a phone to function
Smart Watch OS has low support
Insignificant battery life.
Small screen.
Some are not water proof.
Wi-Fi availability varies.
Best Smartphone Alternative
Samsung Galaxy S5 Android OS
Snapdragon 400 Processor
2,800 mAh 10.78Wh Battery
5.1” Multi-touch screen
Built-in mobile health monitor
Wifi/Bluetooth ready
Front/Rear cameras
Samsung S5s ROM
Implement power efficiency modifications
Change logos to represent Texas State and NASA
Fully disable cell antenna.
Clear all bloatware
Implement GUI more suitable for the application
The Network
Cloud style infrastructure utilizing PHP
Utilizing WIFI and Bluetooth
Web architecture can be implemented on any type of device
PixelSense running WAMP
Allows expandability of users
3D Printing For Wrist Mount
3D scan the device
Create a 3D rendering
3D print mount
Refine
Attach universal strap
The Stop Light
Timing notifications
Improve task times
Access scheduling database
Start/Stop for recording of tasks
Scheduling
User based
Efficient
Mobile
Improve time management
Streamline current process
Warning System
Adjustable
Assign/Create Alerts
Priority System
Real-time notifications
Expandable
Stretch Goals
Parts HealthCommunications
Real-time monitoring
Utilization of sensors
Marry with warning system
Safety precautions
Database of RFID tags
Feature checking
Use PixelSense IR scanners
Schematics
Storage
Voice chat
Real-time video
Communication efficiency
The “Rapid Prototype”