The Whole Drone Package System Concept: Difference between revisions

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Picture of Eindhoven & its grocery store locations
Picture of Eindhoven & its grocery store locations
Explanation of who can be reached and why this is effective
Explanation of who can be reached and why this is effective
== Requirements Assessment ==
Green == addressed when designing this concept
<br>
Yellow == partially addressed when designing this concept and would need testing
<br>
No Fill == either external factors that why need consideration or requirements that cannot be assessed without further testing, which was not approachable in our time span
<br>
{| border="1" class="wikitable" cellpadding="2" width="100%"
|- valign="top"
! scope="row"  width="25%" | Functional
! width="25%" | Process
! width="25%" | Product
! width="25%" | External
|- valign="top"
| style="background-color:#20ff74;" | The system should be able to accept a package from a drone.
| style="background-color:#20ff74;" | The component should be able to identify the package & designate a cubby location.
| style="background-color:#20ff74;" |The user must be able to use the system immediately without any problem by following indicated steps.
| The delivery drones must be capable of moving to an exact location in x, y and z direction.
|- valign="top"
| style="background-color:#20ff74;" | The system should have a holding space for package(s)
| style="background-color:#20ff74;" | The system must be able to receive and handle a package within a minute, so a possible other drone waiting to deliver does not have to wait too long.
| style="background-color:#20ff74;" | The system should communicate with the delivery drone to provide location information.
| The delivery drones must have a Wifi Signal receiver to retrieve system location information
|- valign="top"
| style="background-color:#faff6d;" | The system should be robust-withstand damage, break-ins debris etc.
| style="background-color:#20ff74;" | The system should know when a package is on the platform and is clear to proceed.
| style="background-color:#20ff74;" |The system should at all times only open the locker with the package for which the right code has been presented.
| The delivery drones should be able to calculate approach and positioning
|- valign="top"
| style="background-color:#faff6d;" | The system should be able to report status - malfunction, full, delivery etc.
|
| The system should open the right locker(s) within ten seconds after verifying the code.
| There must be a short manual on how to use the system, that can be hung next to the system.
|- valign="top"
|
|
| The system is allowed to be broken twice a year. It should then be repaired within 24 hours of the malfunctioning being reported.
| There must be a guide on how to install the system.
|- valign="top"
|
|
| The user should feel safe when using the system.
| Help must be available all days between 9.00 and 18.00
|- valign="top"
|
|
| The user should feel their package is safe in the system.
|
|}


= Further Issues to Consider =  
= Further Issues to Consider =  

Revision as of 10:11, 11 October 2014

Quick Links
Project Trajectory Project Pages
Home Problem Definition Opening Scenarios
Planning and Milestones Background Research Chimney Rules & Regulations
Meetings Requirements Chimney to Cubby
Design Method(s) Brainstorm Cubby to Person  
Personal Logs Concepts Chosen Software
Peer Review & Reflection Whole System  

Facts & Assumptions

Dimensions of Tote
Drone Tote Height Width Depth Weight
Average 12 cm 15 cm 26 cm 1.5 kg (max 2.3 kg)

Specs were estimated from looking at the Amazon Prime Air video since no real dimensions could be found, currently.[1]

Tote has an RFID tag located in bottom right corner of the tote on the front face.


Assumptions

  • Drone has obstacle deflection capabilities.

The System

What it Looks like

Locker.jpg
Roof.jpg
  • Describe here the system as a whole, and what the different components look like. How it is seen by the user(s) etc.

Basically, our system consists of four parts, the landing platform on the roof, the chimney, the conveyor belts and the lockers. The landing platform will not be visible for most and it will not be very big or notable. The chimney will be visible for customers as it is located next to the lockers as seen in the picture. It will have a simple rectangular shape and can be covered by paint or/and posters. The lockers will be very similar to the amazon locker system, except the arrangement of the lockers might differ slightly. The conveyor system which gets the package to the right locker will be behind the lockers and is therefore not visible to customers.

  • Drawing of what it looks like connected to an AH supermarket in the parking lot.
  • Insert drawings/sketches
  • Explanation of how it is modular and can be expanded and collapsed in size.

How it Works

  • Describe how the system works as a whole.
  • Detailed information on function can be found in the -How it works powerpoint slides-
  • How a drone finds the system
  • How a mailman has access
  • How users have access

Location

Where should these pick-up points be placed. Why is this a logical choice. etc.
Who has access to these things. etc.

Now: Using Amazon lockers


today there are some locker systems already in use.
Amazon already has there own locker.
This locker is placed at locations which can be accessed 24 hours a day.
for example 7-Eleven, Amazon pays a small fee each month but Amazon and 7-Eleven wont tell what it is. article about amazon lockers
another article about amazon lockers

distance to supermarkets


In Holland the average distance to a supermarket is 0.9 Km. In big cities residents can choose from 3 major supermarkets within 1 kilometer. cbs statistics of supermarkets
In Eindhoven this distance is on average 0.7 Km, and the amount of supermarkets within 3 Km is 16.5 supermarkets. statistics Eindhoven



Picture of Eindhoven & its grocery store locations Explanation of who can be reached and why this is effective

Requirements Assessment

Green == addressed when designing this concept
Yellow == partially addressed when designing this concept and would need testing
No Fill == either external factors that why need consideration or requirements that cannot be assessed without further testing, which was not approachable in our time span

Functional Process Product External
The system should be able to accept a package from a drone. The component should be able to identify the package & designate a cubby location. The user must be able to use the system immediately without any problem by following indicated steps. The delivery drones must be capable of moving to an exact location in x, y and z direction.
The system should have a holding space for package(s) The system must be able to receive and handle a package within a minute, so a possible other drone waiting to deliver does not have to wait too long. The system should communicate with the delivery drone to provide location information. The delivery drones must have a Wifi Signal receiver to retrieve system location information
The system should be robust-withstand damage, break-ins debris etc. The system should know when a package is on the platform and is clear to proceed. The system should at all times only open the locker with the package for which the right code has been presented. The delivery drones should be able to calculate approach and positioning
The system should be able to report status - malfunction, full, delivery etc. The system should open the right locker(s) within ten seconds after verifying the code. There must be a short manual on how to use the system, that can be hung next to the system.
The system is allowed to be broken twice a year. It should then be repaired within 24 hours of the malfunctioning being reported. There must be a guide on how to install the system.
The user should feel safe when using the system. Help must be available all days between 9.00 and 18.00
The user should feel their package is safe in the system.

Further Issues to Consider

  • taking the tote
  • rules and regulations
  • how many cubbies needed for an area
  • how are packages (and totes) returned

References

  1. 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/>