The Whole Drone Package System Concept
Project Trajectory | Project Pages | ||
---|---|---|---|
Home | Problem Definition | Opening | locker |
Planning and Milestones | Background Research | Chimney | Amazon Drone |
Meetings | Requirements | Chimney to Cubby | The Whole Drone Package System Concept |
Design Method(s) | Brainstorm | Cubby to Person | |
Personal Logs | Concepts Chosen | Software |
Facts & Assumptions
Drone Tote | Height | Width | Depth | Weight |
---|---|---|---|---|
Minimum | 0.2 kg | |||
Maximum | 2.3 kg | |||
Average | 12 cm | 15 cm | 26 cm | 1.5 kg |
Drone | Height | Width | Depth | Weight |
---|---|---|---|---|
Minimum | ||||
Maximum | ||||
Average |
Specs were estimated from looking at the Amazon Prime Air video since no real dimensions could be found, currently.[1]
Tote has barcode located in bottom right corner of the tote on both the front and back face, simplifies orientation problem.
Assumptions
The Scenario
Gas Stations in the USA, Supermarkets in the Netherlands. Allows for a general place to drop packages. Access for both the mailman and drone.
Picture of Eindhoven & its grocery store locations Explanation of who can be reached and why this is effective
The System
Drawing of what it looks like connected to an AH supermarket in the parking lot.
Mini explanation of how it works as a whole.
Explanation of how it is modular and can be expanded and collapsed in size.
Explanation on how each station is identified and how the drone communicates.
References
- ↑ Allain, R.(2013).Physics of the Amazon Octocopter Drone.Wired Science Blogs.<http://www.wired.com/2013/12/physics-of-the-amazon-prime-air-drone/>