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==Truck-drone delivery vs. Distribution centres==
==Truck-drone delivery vs. Distribution centres==
To be certain of our choice that the combination of a truck and drone delivery is a better application for the Netherlands than a direct delivery from the available distribution centres, we researched the possibilities amazon drones propose. In their current research status they state that their drones can cover a total distance of 32 km. This means that the drones can fly within a radius of 16 km from the distribution centre on a full battery. Therefor one distribution centre can cover up a surface of (π * r2=) 803.84 km2. To cover up the entire Netherlands its surface (42.000 km2), this results in a demand of over 52 distribution centres. Comparing this to the current number of distribution centres of PostNL which is 6 centres through the entire Netherlands, a proposed increase of 875% on distribution centres is necessary. This would be the only way to deliver a package on the maximum distance of 16 km within 30 min.
To be certain of our choice that the combination of a truck and drone delivery is a better application for the Netherlands than a direct delivery from the available distribution centres, we researched the possibilities amazon drones propose. In their current research status they state that their drones can cover a total distance of 32 km. This means that the drones can fly within a radius of 16 km from the distribution centre on a full battery. Therefor one distribution centre can cover up a surface of (π * r2=) 803.84 km2. To cover up the entire Netherlands its surface (42.000 km2), this results in a demand of over 52 distribution centres. Comparing this to the current number of distribution centres of PostNL which is 6 centres through the entire Netherlands[[https://www.postnl.nl/klantenservice/vragen/locaties-brievenbussen/waar-staan-de-sorteercentra-van-postnl.html]], a proposed increase of 875% on distribution centres is necessary. This would be the only way to deliver a package on the maximum distance of 16 km within 30 min.


Our solution for this would be to install wireless charging pads throughout the Netherlands, for example on lampposts. This would increase the distance one drone can cover with 200% since the first time the drone can fly straight for 32 km, before fully charging and then cover another 16km so it can still return to the charging pad. This would mean one distribution centre can cover up a radius of 48 km and therefor a surface of 7234 km2. This would mean that about 6 distribution centres could cover up the entire Netherlands, if ideally distributed over the country. In this case a drone maximally takes about 75 minutes for one delivery and another 75 minutes to return and another 30 min to recharge again, resulting in a total time of 180 minutes.
Our solution for this would be to install wireless charging pads throughout the Netherlands, for example on lampposts. This would increase the distance one drone can cover with 200% since the first time the drone can fly straight for 32 km, before fully charging and then cover another 16km so it can still return to the charging pad. This would mean one distribution centre can cover up a radius of 48 km and therefor a surface of 7234 km2. This would mean that about 6 distribution centres could cover up the entire Netherlands, if ideally distributed over the country. In this case a drone maximally takes about 75 minutes for one delivery and another 75 minutes to return and another 30 min to recharge again, resulting in a total time of 180 minutes.

Revision as of 17:03, 27 February 2018

1) Problem statement:

Can the everyday delivery method of packages be improved by means of drones?

Objectives:

- Human aspect; who is responsible when something goes wrong?

- Delivery method; How accurate can a drone pick up and deliver packages?

- Transport efficiency; what is the time gain of trucks vs drones? Including airspace restrictions.

2) Who are the users?

The Buyer and supplier

3) What do they require?

Supplier: quick, easy, safety. Buyer: easy and cheap delivery.

4) Approach, milestones and deliverables

Approach: literature study, surveys, models, experiments

Milestones: testing with Blue Jay, at least 75 surveys, CAD design for delivery method, 25 scientific articles, simulate the time gain of drones

Deliverables: report

5) Who’s doing what?

- Nol & Marc: responsible for the CAD design

- David & Thibeau: responsible for the simulation of the time gain

- Pam: responsible for the survey

Assumptions

Backed up assumptions Group 10

Truck-drone delivery vs. Distribution centres

To be certain of our choice that the combination of a truck and drone delivery is a better application for the Netherlands than a direct delivery from the available distribution centres, we researched the possibilities amazon drones propose. In their current research status they state that their drones can cover a total distance of 32 km. This means that the drones can fly within a radius of 16 km from the distribution centre on a full battery. Therefor one distribution centre can cover up a surface of (π * r2=) 803.84 km2. To cover up the entire Netherlands its surface (42.000 km2), this results in a demand of over 52 distribution centres. Comparing this to the current number of distribution centres of PostNL which is 6 centres through the entire Netherlands[[1]], a proposed increase of 875% on distribution centres is necessary. This would be the only way to deliver a package on the maximum distance of 16 km within 30 min.

Our solution for this would be to install wireless charging pads throughout the Netherlands, for example on lampposts. This would increase the distance one drone can cover with 200% since the first time the drone can fly straight for 32 km, before fully charging and then cover another 16km so it can still return to the charging pad. This would mean one distribution centre can cover up a radius of 48 km and therefor a surface of 7234 km2. This would mean that about 6 distribution centres could cover up the entire Netherlands, if ideally distributed over the country. In this case a drone maximally takes about 75 minutes for one delivery and another 75 minutes to return and another 30 min to recharge again, resulting in a total time of 180 minutes.


Coaching Questions

Coaching Questions Group 10

Simulation model to analyse delivery efficiency

GOAL: Determine the time gain by using drones for the 'last-mile-delivery' instead of using cars/vans.

APPROACH: A number of random locations within a dutch city are picked. These locations are assumed to be destinations for packets to be delivered. Then for both methods the time spent on 'last-mile-delivery' is estimated using simulations.

METHODS: 1) Delivery is done by a typical delivery car or van. The main restrictions taken into account are the speed limits. To start off, delay due to busy traffic isn't explicitly implemented yet in this simulation(this might be done later on). An assumption for this method is that only 1 vehicle is used to deliver all packets within that city (Max 10 packets). For now, the actual delivery (parking the vehicle, getting out, get the package to the receiver) is approximated by a constant that can be altered (1-5mins).

2) Delivery is done by drones. The main restrictions are: cruise speed, obstacles (airfields, power lines, windmills) and max range. Later on, if enough time is left, more complex factors can be simulated such as wind(speeds), changing the travel time and range. Multiple drones can be used for a single city. Can be altered to study efficiency relation. All of these drones are deployed from a single location in the city (place where the truck is stopped). For now, the actual delivery is approximated by a constant that can be altered (30s-2mins).


State of the art

State of the art Group 10