Difference between revisions of "BOARDLOCK"

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- Inspired by the convenience of BIRD and LimeBike, we hoped to recreate this idea in a longboard rather than bikes and scooters
 
- Inspired by the convenience of BIRD and LimeBike, we hoped to recreate this idea in a longboard rather than bikes and scooters
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2. Decided on BOARDLOCK, envisioning a single-motor mappable electric longboard with manual locking ability (from iPhone)
 
2. Decided on BOARDLOCK, envisioning a single-motor mappable electric longboard with manual locking ability (from iPhone)
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- Found optimal longboard size (33 inches), brushless motor, ESC, E-Longboard Assembly Kit, 2x Lipo Batteries
 
- Found optimal longboard size (33 inches), brushless motor, ESC, E-Longboard Assembly Kit, 2x Lipo Batteries
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2. Sept 13: All 3 of us met with Jim and our TA to finalize BOARDLOCK idea, make a plan (1 hour)
 
2. Sept 13: All 3 of us met with Jim and our TA to finalize BOARDLOCK idea, make a plan (1 hour)
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- Debating best way to manually lock/unlock wheels, one option would be to set up a website with a "button" that uses Bluetooth to detects user's proximity
 
- Debating best way to manually lock/unlock wheels, one option would be to set up a website with a "button" that uses Bluetooth to detects user's proximity
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3. TA provided us with materials (Night Light, Raspberry Pi) and locker number
  
  
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2. Sept 21: Planning to meet with Jim and TA
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2. Sept 21: Meeting with Jim and TA @ 2 PM
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Revision as of 22:17, 20 September 2018


Week 1: September 3rd- September 7th

1. Brainstorming project ideas

- Inspired by the convenience of BIRD and LimeBike, we hoped to recreate this idea in a longboard rather than bikes and scooters


2. Decided on BOARDLOCK, envisioning a single-motor mappable electric longboard with manual locking ability (from iPhone)


Week 2: September 10th- September 14th

1. Max: Research/Acquiring materials (1.5 hours)

- Found optimal longboard size (33 inches), brushless motor, ESC, E-Longboard Assembly Kit, 2x Lipo Batteries


2. Sept 13: All 3 of us met with Jim and our TA to finalize BOARDLOCK idea, make a plan (1 hour)

- Got idea approved :), decided to focus on GPS and locking mechanism using Raspberry Pi

- Discarded building an app (not enough knowledge/would take too long)

- Debating how to manually increase/decrease motor speed (remote control vs wire connection?)

- Debating best way to manually lock/unlock wheels, one option would be to set up a website with a "button" that uses Bluetooth to detects user's proximity


3. TA provided us with materials (Night Light, Raspberry Pi) and locker number


Week 3: September 17th - September 21st

1. Amin, Isa, Max: Set up Night Light (1 hour)

- Built and tested the circuit on a breadboard, got it to work

- Designed a case for project (dimensions in millimeters: 50 x 18 x 80)

- Holding off on soldering until Friday -- need to show TA case design


2. Sept 21: Meeting with Jim and TA @ 2 PM

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