Difference between revisions of "NFC Lock"
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==Challenges== | ==Challenges== | ||
+ | |||
+ | *First and foremost, security. All web requests MUST be encrypted & sent through HTTPS (as they may contain sensitive information, like phone UIDs and serials) | ||
+ | *Not biting off more than we can chew (see Goals section) | ||
+ | *Keeping budget under $150 for a pretty high-tech product | ||
+ | *Not using an unnecessarily large amount of battery during normal operation (minor) | ||
==Materials Needed== | ==Materials Needed== |
Revision as of 05:00, 5 February 2018
Overview
This is a NFC-enabled smart lock designed to replace a standard deadbolt assembly.
The team of two will design and assemble an electronic, Arduino-powered drop-in deadbolt assembly that can be unlocked with registered NFC-enabled devices such as the Apple Watch, newer iPhones, or most Android phones. The lock will be powered by a Particle Photon chip running on an Arduino Uno board; the Photon will be web-enabled and NFC-enabled, allowing it to check NFC credentials and be operated remotely from a web app or mobile app.
A detailed user story indicating the flow of events that allow the lock to function:
- John Doe downloads the native iOS app for the smart lock
- John Doe signs in to his Lock account on the native app, linking his phone's credentials to his account
- John approaches the door with the phone, and the phone recognizes the NFC signal coming from the Photon
- The phone sends an encrypted HTTPS web request to the Photon's webhook API along with its unique credentials (UID or Serial No.)
- The Photon accepts the request, checks the data against its list of registered devices, and decides whether or not to open the deadbolt
- If the credentials are approved, the Photon will apply an electronic signal to the deadbolt servo, opening the door
Members
- Kai Banks
- Nikki Wines
Goal
Design
Challenges
- First and foremost, security. All web requests MUST be encrypted & sent through HTTPS (as they may contain sensitive information, like phone UIDs and serials)
- Not biting off more than we can chew (see Goals section)
- Keeping budget under $150 for a pretty high-tech product
- Not using an unnecessarily large amount of battery during normal operation (minor)
Materials Needed
- Particle Photon (Arduino Uno with a Particle shield) - have