PRE2018 4 Group3

From Control Systems Technology Group
Revision as of 13:29, 18 May 2019 by S168857 (talk | contribs)
Jump to navigation Jump to search

Group Members

Name Student Id
Han Wei Chia 1002684
Niek Brekelmans 1017203
Floris Verheijen 0948592
Esmee Esselaar 0987206
Minjin Song 1194206

Problem statement

In the past few years beekeepers around the world have seen sudden dissapearances of wild and domesticated bees and a steady decline in the amount of honey bee colonies. According to research, causes of the observed decline can be found in the increase in pesticide use around the world and steadily increasing urbanization. Even climate change may be a factor that influences bee population decline.

Since around a third of the global food consumption depends on pollination by insects, of which the bee is a significant contributor, the decline or even extinction of these pollinators would have a large impact on our lives.

Besides proposed solutions to stop further decline of the bee population, there is a need to compensate the already occurred loss of pollinators. In this project, the intent is to research and design a replacement for bee pollination, in the form of a robotic and drone-like bee.

Objective

Our goal is to create a proof on concept of a drone that can collect and spread pollens of apple trees. Furthermore, we will give an advice / recommendation on how our proof of concept can be improved by making it autonomous (with image recognition) and a good way to deploy the drone with charging stations.

User, society and enterprise

Users

Due to decreasing population of honey bees in recent years, there has been impacts in beekeeping industries as well as in the rate of pollination by bees. Because significant proportion of food consumption in the world depends on pollination by insects, those who provide materials for food processors definitely needs replacements for the future. Those who are involved in food affected by pollination, such as beekeepers and large scale plant owners whose plants depend on pollination by insects, will be primary users who will definitely consider this solution to be feasible.

At this time, some beekeepers make a living by renting their bees to farms and municipalities that require more pollination. The jobs of those people will be complemented with robotic bees, so their job is saved, even if bees become extinct. Beekeepers will have to focus on repairing the robotic bee, rather than care for actual animals. If beekeepers can hande this shift in their business, they will not be affected by the robotic bee in a negative way.

Society

There are more honey bees in this world than any other type of bee and pollinating insects. This means that honey bees are the most important pollinators of our food crops. Approximately one third of our food relies on the pollination by bees. Without honey bees, we would have a global food crisis that would kill a lot of people. This food shortage in case of an extinction will be prevented if an artificial pollinator replaces bees in time. The protection of our food chain is essential and vital to humanity's survival.

Enterprise

Plants will be in trouble if pollinators die out. A lot of them would go extinct. This would lead to mass disruption of insect and wildlife life cycles. It would be hard to predict exactly what would happen, but there would be many negative impacts on user and society alike. There will be huge demand for other (Artificial) Pollination solution. Robotic bees could be the solution and be very beneficial for enterprises to invest in

Requirements

The things users will require the drones to meet are;

  • The reusability of the drones
  • They need to be mass producible
  • Environment friendly materials need to be used, preferably bio degradable
  • The drones need to be energy efficient so they last long enough on one charge, even though there is not a lot of battery capacity
  • Easy to control or automated so that a single person can control a swarm of drones
  • The flowers should not be damaged by the artificial pollination
  • The drones need to be replaceable by one another like real bees are in a swarm
  • There must be a way to locate the drones if they break in order to reuse them
  • The drones must be fully charged in a small time
  • The drones must be able to reach a charging station in time

Approach

The following appraoch will be used to meet the requirements:

First a literature study will be done on the techniques and requirements described earlier. Next will be a literature study on the current state of the art of artificial pollination. We will reach out to a stakeholder to discuss the requirements of an artificial pollinator, and in what way our product would be useful for the stakeholder. When the research is done, a model and/or proof of concept will be build.

Milestones

Week Milestones
1
  • -
2
  • Choosing a subject, define who the stakeholders are and finish the planning
3
  • concretely define problem and starting in-depth research into required recourses
4
  • Main part of research is completed
  • Design
5
  • -
6
  • -
7
  • Finalize reasearch and design
  • Finish prototype
  • Finish wiki/report
8
  • Present
9
  • -

Deliverables

  • Proof of concept drone
  • Advice about deployment
  • This wiki

Planning

Our up-to-date planning can be found with the following link: [1].


Assumptions

For our project on robotic bees we decided to narrow down the research and design by focussing on the pollination of apple trees. This was decided since there exist around 300.000 species of flowering plant in the world, making the design a robotic bee suited for all species of flowers too complicated to achieve.

The apple tree was chosen since the apple is the most eaten fruit in the Netherlands, as well as an important export product. Furthermore, when it comes to pollination, the apple tree is self-incompatible, which means that it must be cross-pollinated to bloom. This would accomodate the testing of a prototype of robotic bee, since the self-incompatibility helps to ensure that the bee is the only pollinator.

State of the Art

PRE2018_4_Group3_Literature

Recommendations

Charging stations