Difference between revisions of "BOARDLOCK project"
| Line 3: | Line 3: | ||
'''Project Proposal''' | '''Project Proposal''' | ||
| − | + | You've heard of BIRD Scooter and LimeBike... now we present to you BOARDLOCK, an Electric Longboard with a working motor, iPhone-accessible GPS, and keycard locking capabilities. In this project, our team is aiming to | |
| Line 23: | Line 23: | ||
'''Objectives''' | '''Objectives''' | ||
| − | 1. | + | 1. Attach a motor to the underside of our Longboard deck, be able to control it manually using an ESC |
| − | 2. | + | 2. Set up Raspberry Pi, get GPS working and be able to access BOARDLOCK's location at all times from our phones |
| − | 3. | + | 3. Set up RFID in order to lock and unlock BOARDLOCK's wheels by physically tapping key card |
'''Reach Objectives''' | '''Reach Objectives''' | ||
| + | |||
| + | 1. Use Bluetooth connectivity to detect user when in close proximity | ||
'''Challenges''' | '''Challenges''' | ||
Revision as of 19:36, 21 September 2018
Project Proposal
You've heard of BIRD Scooter and LimeBike... now we present to you BOARDLOCK, an Electric Longboard with a working motor, iPhone-accessible GPS, and keycard locking capabilities. In this project, our team is aiming to
Link to Weekly Log
https://classes.engineering.wustl.edu/ese205/core/index.php?title=BOARDLOCK
Team members
Amin Bdeir
Max Marchetto
Isabella Zisman
Objectives
1. Attach a motor to the underside of our Longboard deck, be able to control it manually using an ESC
2. Set up Raspberry Pi, get GPS working and be able to access BOARDLOCK's location at all times from our phones
3. Set up RFID in order to lock and unlock BOARDLOCK's wheels by physically tapping key card
Reach Objectives
1. Use Bluetooth connectivity to detect user when in close proximity
Challenges
Gantt Chart
Budget
