Designing the Opening Component: Difference between revisions
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= Problem Description = | = Problem Description = | ||
'''Goal:''' The goal in this stage of the system is to receive a package from a drone, have it oriented in the appropriate position for further processing, and get it to the next stage of delivery. | |||
[[File:Group1-KS-Opening-Problem.jpg|thumb|200px|KS-OpeningP2-27-09]] | [[File:Group1-KS-Opening-Problem.jpg|thumb|200px|KS-OpeningP2-27-09]] | ||
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'''Assumptions:''' | '''Assumptions:''' | ||
* Drone has Obstacle Detection to avoid objects in its way | * Drone has Obstacle Detection to avoid objects in its way | ||
= Ideas = | = Ideas = | ||
Revision as of 20:42, 27 September 2014
Click to go to Opening.
There are many aspects that need to be considered when developing the mechanical system.
Planning
| Completion | Due Date *a little flexible | Stage |
|---|---|---|
| 29-Sept | Answered all Research Questions | |
| 29-Sept | List of Requirements the opening should fulfill | |
| 29-Sept | Set Specifications/Facts for tote & speed | |
| 1-Oct | Mechanisms and Design Decisions Done to get to final concept | |
| 6-Oct | Detailed Sketch(es) of Opening | |
| 6-Oct | Description of how it works & how to build | |
| 9-Oct | Build mini model? |
Facts
| Drone Tote | Height | Width | Depth | Weight |
|---|---|---|---|---|
| Minimum | ||||
| Maximum | ||||
| Average |
Totes expected to be handled p/day:
Time Spent handling a tote:
Tote has barcode located in bottom right corner of the tote on both the front and back face, simplifies orientation problem.
Problem Description
Goal: The goal in this stage of the system is to receive a package from a drone, have it oriented in the appropriate position for further processing, and get it to the next stage of delivery.
| Environmental Factors | Dynamic Factors | Technical Factors |
|---|---|---|
| Rain | Birds | Waterproofing? |
| Snow | Bugs | Moisture Resistance? |
| Debris | Temp. affects on function? |
| Task/Function | Description |
|---|---|
| Positioning | Drone+/or Package reaches the correct place for dropping the package or entering the system |
| Identification | package+/or drone needs to be identified by the system so that it can further handle the package |
| Accuracy | drone landing/dropping of the package should be accurately placed in the landing zone |
| Speed | The rate at which a package should be handled to the next stage of the system |
| Size of Landing Zone | The size may effect accuracy of package dropping (want to make this as large as possible) |
| Flight Path Problem | How many DoF does the drone have to approach the opening? |
Assumptions:
- Drone has Obstacle Detection to avoid objects in its way
Ideas
KS-OpeningP3-27-09
Sloped Platform & Door Ideas
KS-OpeningP4-27-09
Flat Platform & Debris Ideas
KS-OpeningP5-27-09
Orientation Idea & Conveyor Idea
KS-OpeningP6-27-09
Funnel & Door Ideas
Sloped Platform
Labels: Drone Drop Zone
See page3 in gallery above for sketch.
| How it Works | Pros | Cons |
|---|---|---|
| As the name suggests, this set-up has a platform that is sloped with alignment to the roof. The slope allows for the package to be dropped and travel down with gravity towards the opening of the chimney. Also this system has a wiper which pushes the package in alignment after dropping. To make sure the package does not fall off the platform, there are guides. | Wiper can be used to clean off debris & snow. | Drone flight path slightly obstructed due to wiper & guides |
| Allows wide land/drop zone for the drone. | May look odd on buildings with flat roofs | |
| Drone can be oriented, but is not necessarily required b/c system aligns package after drop |
- See door mechanisms that could couple to this component to bring package into the system
- See orientation mechanisms that could couple to align package
Flat Platform
Labels: Drone Drop Zone
See page4 in gallery above for sketch.
| How it Works | Pros | Cons |
|---|---|---|
| This set-up has a platform that is flat and makes the use of two wipers. One in the x direction and one in the y direction, which will be used t align the package accordingly with the opening of the chimney. Guides prevents the package from falling off the platform. | Gets package oriented and to location | Flat less effective than slanted |
| Allows for big area land/drop zone | Drone flight path slightly obstructed by wipers & guides | |
- See door mechanisms that could couple to this component to bring package into the system
- See orientation mechanisms that could couple to align package
RFID & Beacon
| How it Works | Pros | Cons |
|---|---|---|
| Pro here | ||
| Pro here | ||
| Pro here |
Conveyor
| How it Works | Pros | Cons |
|---|---|---|
| Pro here | ||
| Pro here | ||
| Pro here |
Funnel
| How it Works | Pros | Cons |
|---|---|---|
| Pro here | ||
| Pro here | ||
| Pro here |
Research Questions
Identification
Question: What kind of identification methods are there and how do they work? Radio Frequency Communication
Barcode Scanning
Omni-Directional Scanner -
Fixed Position Scanner -
Require external power sources, otherwise batteries that need replacement often
Wiki-BarCode Scanners
[UPC Codes]
[Barcodes]
Barcode Scanner(s)
- MPSi system- omnidirectional or Single scanner (CRT, speed, direction, etc)
What this research contributes to the design of this component:
(Make selection about the type of scanner that can be used & Barcode and information stored on the barcode)
Orientation
Question: What kind of methods are there to position robots/carts/etc. and how do they work?
Landing Radius casting
Light Beaconing
Transponder signal?
RFID
Question: What are kinds of sensors that help detect contrast or symbols?
What this research contributes to the design of this component:
(Make a selection as to which orientation method will be implemented (if any))
What this research contributes to the design of this component:
(If transponders can be used in the beaconing and delivering of a package via drone)
Requirements
| Functional | Product | Process | External |
|---|---|---|---|