PRE2016 4 Groep5

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Group 5: AED Drone from TU Delft

  • 1. Thom Konijnenberg 0945007 t.j.c.konijnenberg@student.tue.nl
  • 2. Rense Nijenkamp 0960705 r.c.j.nijenkamp@student.tue.nl
  • 3. Nikolay Stoyanov 0980910 n.stoyanov@student.tue.nl
  • 4. Wessel van der Heijden 0951686 g.w.v.d.heijden@student.tue.nl
  • 5. Patrick Shaw 0900654 Pthom.shaw@gmail.com

Introduction

Cardiac arrest is still a serious problem in the Netherlands. When it occurs, the survivability rate outside of the hospital is less than 10%. The reason for such a low survival rate is due to the fact that after a cardiac arrest, only an AED or a defrilibator can revive the heart and with every minute passing, the chance of surival drop with another 10%. However, the AED Drone from TU Delft is a solution as it can reach the patient faster than an person can who still has to retrieve an AED. However, the Drone from Delft is just a proto-type and has not been further investigated on issues like psychological and ethical connections to the TU Delft ambulance drone.

Problem statement

  • We have a drone that goes from A to B with an AED in a crowded environment. It needs to land close to the victim in order to get the AED to the victim. How does it land as fast as possible.
  • Landing an ambulance drone as fast as possible in a crowded environment.

Objectives

  • How would the AED Drone improve the survival rate in Eindhoven.
  • How does the crowd react to a drone landing from above.
  • What protocal should people follow if the drone is in use.
  • How should the drone behave to not disturb the crowd.
  • To what extend can the drone invade other people’s privacy in order to fulfill its objective.

Users

Primary user

  • People using the equipment delivered by the drone
  • People who have the equipment used on

Secondary user

  • Government
  • Hospital
  • Insurance
  • Maintenance

USE

User

The users for the AED drone are different than users normally are, as the users from the AED drone are not prepared and is mostly forced upon them. When one comes across a collapsed person who has cardiac arrest, the user has to dail the emergency number and a drone will be send towards the location using the GPS of the person who called the emergency number. After a couple of minutes, when the AED Drone has arrived, further instructions will be provided, as is the norm with an AED.

Society

For society, this idea has a lot of impact. When a drone is used to help people survive a heart attack or other urgent healthcare problems, there are a number of issues which need to be dealt with: Privacy. Should the drone be able to access all locations? For example: entering someone’s garden in order to get to the victim. Crowd control. What are the effects on a crowd of people when a drones passes by at high speeds? For example: a drone could cause a lot of panic within a crowd. Parking. How can a parking space be created? How can you get a group of people to make room in an efficient way? These three main issues focus on society’s opinions and behaviour. This needs to be analyzed by investigating completed studies on a variety of subjects regarding society’s view towards robotics used for healthcare.

Enterprise

The main enterprises that will be impacted by this idea are: Insurance companies Hospitals and government Drone manufacturers These enterprises have different interests when it comes to this idea. Whereas the hospitals, government and drone manufacturers might want there to be as many drones like this as possible, the insurance companies might not want this to happen. At the end of the day, the insurance companies main objective is to make profit. Having some expensive drones save lives might be more costly than deploying a “normal” ambulance, which will be more beneficial for the insurance companies.

Issues

The ambulance drone is an unmanned aerial vehicle which means that it will need to use a camera in order for it to be operated. The drone will also move in crowded environments and will eventually interact with people. Therefore there are many issues concerning it’s behaviour. There should be rules concerning the ambulance drone, however there are currently no rules specifically for an unmanned ambulance drone, and therefore the drone will have to abide by the rules of consumer or business drones, which will currently prevent this project from taking off for real use. The good side is that there is a possibility that this project can be approved and have exceptional rules concerning it. However, for it to be approved, the drone must overcome dangers and ethical issues which will be discussed in the following sections.

Privacy

The camera itself brings a lot of issues concerning privacy. It is easy for a drone with a camera to gather different kinds of data. If a person is inputting his email on a computer, a drone can easily hover behind him unnoticed whilst recording it. Then it is needless to say that the person who has access to the video can without trouble learn the credentials of this email. Also people do not want to be seen what they are doing in their homes which can be unnoticably done by a drone. Drones can also be used for gathering economical data such as who are the people shopping on a given street [1]. The drone’s purpose however is not to use the camera with such intentions and therefore some rules regarding the drones should be omitted and concern the ambulance drone. Even if such a drone may sometimes endanger invade the privacy of a person, that camera is needed for the drone to deliver life-saving functionality which is a reasonable trade-off.

Criminality

According to an article [2] a man has shot down a drone which was flying over his yard. That same man has been sued by the owner of the drone and the judge ruled the man to be innocent. However during the case there has been discussion of the height at which the drone was flying. Which leads to the conclusion that if the drone has been flying high enough the man would not be legally allowed to shoot down the drone. The drone is supposed to fly high above the ground and at reasonable speed which means that people who try to shoot down or steal such a drone will not have done so with concern for their privacy, but with violent intentions and should be brought to justice for destroying/stealing government property.

Safety

There are also many issues concerning the safety of such a drone. This is why there are many rules to prohibit drones in many places. Many of these rules have been stated in the code of conduct for drones, however there are a couple of modifications that are needed for the AED. According to the law, a drone is not allowed to fly at night, this can be a huge problem, especially in the winter when there is not a lot of light. This would mean that the drones would only be allowed to work for a few hours, where an ambulance should always be available to help. Secondary, a drone should be seen when you're controlling it, this is a problem since these drones will be unmanned, should fly to areas where you can't be in time as a person. The drones are also not allowed to fly above buildings, roads and people, this would mean that drones aren't allowed in cities, where there are the most people that do potentially need help.

Liability

If AED drones were allowed to fly in cities, we get the following problem of who is responsible for the drones. since these drones are autonomous we have no direct control over where they fly, and thus there is always a possibility of the drone crashing into objects. There are many studies about autonomous robots and their liability [reference]. Currently we do not know who is responsible if such a drone crashes, which will be more clear if there are any regulations in place.


Approach

  • Literature research. Since we intend to add to an already existing product, we have to properly research what the already existing product is capable of doing. When these capabilities are determined, we can further develop the on our objective and the implementation into the already existing product. After this initial orientation stage, we go into the state of the art part of the literature research. This state of the art research focusses on literature connected to our objectives.
  • Create a model of how the crowd environment reacts to a drone landing. When we have a majority of the state of the art research, we model the behaviour of the crowd into a model to see what kind of effect the drone has on the overall crowd. This focusses on the influence the drone has on its environment.
  • The project is going to be focused on the User and Environment aspects. From those two aspects, the environment is going to play a major role as the crowded environment may act according to a pattern which we can analyze.


State of the Art

The State of the Art information is not available yet as the people on TU Delft have May Break till 8th of May. After Delft answers the mails that has been send, the state of the art can be filled in.

Planning

Milestones

  • First presentation: 1-05-2017
  • Second presentation: 26-06-2017
  • Finish defining problem statement: 3-05-2017
  • Finish literature study: 22-05-2017
  • Finish model: 11-06-2017
  • Finish Experiment: 11-06-2017
  • Finish Wiki: 18-06-2017

Gantt Diagram

Weekly updates.

Gantt Planning

Experiment Plan

Code of Conduct for Drones

When dealing with an ambulance on the road, there are certain rules that apply to that situation to make sure the ambulance can get through the traffic as quickly as possible. Examples of this are: moving to the side of the road when an ambulance with sirens on is behind you, waiting for an ambulance to cross an intersection (even if you have the green light and the ambulance does not) and making as much room as possible in the middle of the road when you are in a traffic jam and an ambulance approaches. When it comes to drones, there are no such guidelines. This is most likely the case because drones are such a new technology. However, as drones are being used more and more, there should be a general code of conduct. This means that the drone as well as the people in its surroundings have a clear idea on how to behave.

When it comes to legislation, drones are categorized as model planes. This means the most important rules that apply are the following:

  • Only fly during the day
  • Make sure the drone can be seen from where you're controlling it
  • Never fly above 120 metres
  • Know the specifications of your drone
  • Never fly above buildings, roads and people
  • Never fly in no-fly zones like airports
  • Always give way to other air traffic
  • Never use a drone for commercial ends
  • Respect other people's privacy
  • Use your drone responsibly

Even though these rules give an indication of how to use drones in a legal way, it does not say anything about the situation we are trying to investigate. When looking at the rules that apply for an ambulance on the road, the most important tips for other drives were the following:

  • When on a roundabout, stay on there until the ambulance has left the roundabout. This gives an easy opportunity for the ambulance to overtake you.
  • Leave a lane open, this gives the ambulance a clear path through.
  • Keep distance to the driver in front of you, so that you can move out of the way if necessary.
  • Leave the emergency lane open.
  • Don't exceed the maximum speed.

When looking at these rules, we decided to come up with the following rules for a crowd of people coming across the ambulance drone:

  • Make space for the drone by moving to the right. This is essentially the same as the rule ambulances on the road use. If everyone moves to the right, there will be open space in the middle.
  • Notify fellow pedestrians that a drone is coming their way. The more people know the drone is approaching, the more people will make room for it.
  • When the drone wants to land near the patient, all people around the patient should make room at the patient's feet. This is important, because the drone might not be able to land as smoothly as it would like, mainly because of the fast speeds at which it moves. If the landing fails, the drone will crash onto the patient's legs instead of onto the patient's head.

These 3 simple rules will make it easier for the ambulance drone to find its way to the patient in a quick and efficient way.

Code of Conduct for Experiments

Laws and regulation in the Netherlands [1]

  • Hoofdstuk 2, Paragraaf 2. De verwerking van bijzondere persoonsgegevens
    • Artikel 16; De verwerking van persoonsgegevens betreffende iemands godsdienst of levensovertuiging, ras, politieke gezindheid, gezondheid, seksuele leven, alsmede persoonsgegevens betreffende het lidmaatschap van een vakvereniging is verboden behoudens het bepaalde in deze paragraaf. Hetzelfde geldt voor strafrechtelijke persoonsgegevens en persoonsgegevens over onrechtmatig of hinderlijk gedrag in verband met een opgelegd verbod naar aanleiding van dat gedrag.
    • Artikel 23; Het verbod om persoonsgegevens als bedoeld in artikel 16, te verwerken ten behoeve van wetenschappelijk onderzoek of statistiek is niet van toepassing voor zover:
      • het onderzoek een algemeen belang dient,
      • de verwerking voor het betreffende onderzoek of de betreffende statistiek noodzakelijk is,
      • het vragen van uitdrukkelijke toestemming onmogelijk blijkt of een onevenredige inspanning kost en
      • bij de uitvoering is voorzien in zodanige waarborgen dat de persoonlijke levenssfeer van de betrokkene niet onevenredig wordt geschaad.
  • Hoofdstuk 5. Informatieverstrekking aan de betrokkene en de meldplicht bij inbreuken op de beveiliging van persoonsgegevens aan het College
    • Artikel 33
      • 1 Indien persoonsgegevens worden verkregen bij de betrokkene, deelt de verantwoordelijke vóór het moment van de verkrijging de betrokkene de informatie mede, bedoeld in het tweede en derde lid, tenzij de betrokkene daarvan reeds op de hoogte is.
      • 2 De verantwoordelijke deelt de betrokkene zijn identiteit en de doeleinden van de verwerking waarvoor de gegevens zijn bestemd, mede.
      • 3 De verantwoordelijke verstrekt nadere informatie voor zover dat gelet op de aard van de gegevens, de omstandigheden waaronder zij worden verkregen of het gebruik dat ervan wordt gemaakt, nodig is om tegenover de betrokkene een behoorlijke en zorgvuldige verwerking te waarborgen.
  • Hoofdstuk 6. Rechten van de betrokkene
    • Artikel 35
      • De betrokkene heeft het recht zich vrijelijk en met redelijke tussenpozen tot de verantwoordelijke te wenden met het verzoek hem mede te delen of hem betreffende persoonsgegevens worden verwerkt. De verantwoordelijke deelt de betrokkene schriftelijk binnen vier weken mee of hem betreffende persoonsgegevens worden verwerkt.
      • Indien zodanige gegevens worden verwerkt, bevat de mededeling een volledig overzicht daarvan in begrijpelijke vorm, een omschrijving van het doel of de doeleinden van de verwerking, de categorieën van gegevens waarop de verwerking betrekking heeft en de ontvangers of categorieën van ontvangers, alsmede de beschikbare informatie over de herkomst van de gegevens.
      • Voordat een verantwoordelijke een mededeling doet als bedoeld in het eerste lid, waartegen een derde naar verwachting bedenkingen zal hebben, stelt hij die derde in de gelegenheid zijn zienswijze naar voren te brengen indien de mededeling gegevens bevat die hem betreffen, tenzij dit onmogelijk blijkt of een onevenredige inspanning kost.
      • Desgevraagd doet de verantwoordelijke mededelingen omtrent de logica die ten grondslag ligt aan de geautomatiseerde verwerking van hem betreffende gegevens.

Setup

For this experiment, we take an elicitation study approach.

Personal space with a drone

Aim
The aim of this experiment is to approximate the personal space of a person when a drone is trying to land from above.
General setup
Place the test person standing up in a good open spot. Let the drone slowly decent from a hight where there is certenly no discomfort caused by the drone for the test person. The test person is free to move their head freely, but is requested to remain stationary as long as comfortable. When the test person either indciates the drone to stop, the drone is stopped and the hight from the ground to the drone is measured. The test is repeated for different approach angles (behind, front, right above, right, left, etc.). For each approach angle, the participant indicates the prefferential approach by a Likert scale.

Information beforehand

  • Lenght of the person
  • Current field of study/occupation
  • Experience with drones
  • Age

Individual evasive movement

Aim
How and when (Flight distance) does an individual move to get out of the way of a landing drone.

Meeting notes

Week 1

Presentation feedback:

  • Sounds: Where does it come from (specific sound)
  • Etiquetes of behaviour: how people should react (not yet established for drone ambulances)
  • Catching a drone instead of landing it
  • What is the need: What is the current availability of AED's
  • When should the drone create noise (if any)
  • What will we add to the existing product of TU Delft
  • Where did TU Delft reasearch stop

Week 2

After the presentation, what is the definitive direction of our project?

Most studies about crowd movement focuss on an non-interruptive environment where fluid dynamics can be used in order to model the behaviour. We want to focuss more on the human aspects, which are unpridictable agents.

We make a map of available AEDs in Eindhoven and when they are still available for use to illustrate the problem. What is the survival chance?


  • Experiment:
    • Rules and Regulation: (Nikolay & Patrick)
      • Privacy
      • Criminality
      • Safety (weather)
      • Liability (assuming it is autonomous
    • Experiment plan (Rense & Wessel
      • Code of Cunduct (of the tu/e)
      • Reasoning (+Hypothesys)
      • Experiment Setup

Update Wiki (finilaze problem statement etc.):

  • Thom

Next meeting: 8-5, 11:15, MF15

Week 3

Meeting May 8th

The problem statement is vague and inaccurate:

  • Provide a more concrete problem statement
  • We described law, but it is not part of the problem statement (best to not include it at all, since it is not actually relevent to our project)
  • Perhaps skip the ethical part
  • Focuss more on landing as fast as possible In a human acceptable way
  • How much 'fear' or 'panic' is acceptable in order increase the landing speed.

Experiment:

  • Perhaps perform an experiment with a crowd
  • Perhaps do the experiment in Delft?
  • What if the drone arrives early?
  • Prevent interference of bystanders

USE:

  • Are there exceptions for ambulance/police drones currently?
    • Perhaps there are interesting rules for ambulance helicopters
  • Are there exceptions for unmanned aerial vehicles?

Other:

  • A map of AEDs is a good introduction to the problem statement, and what is the best strategical placement of the drones.
  • Who currently pays for the AEDs?
  • Perhaps recommend rules and regulations in our conclusion
  • Rules and regulations should not be our main focuss in this project

Next meeting:

  • Read the ambulance drone paper (on the drive) - All
  • Rewrite problem statement
  • Improve Objectives - Nikolay
  • Further elaborate Users - Patrick
  • Setup of the experiment - Wessel
  • State of the art (paper) - Thom
  • Look up robot experiment examples - Rense

Next meeting: 10-5, 10:00 in OGO2

References

Code of conduct: https://www.drones.nl/wetgeving http://wetten.overheid.nl/BWBR0019147/2015-11-07 https://www.anwb.nl/verkeer/veiligheid/wat-te-doen-in-verkeer-bij-sirene-en-zwaailicht

[1] http://www.rogerclarke.com/SOS/Drones-BP.html

[2] https://www.cnet.com/news/judge-rules-man-had-right-to-shoot-down-drone-over-his-house/

  1. Rijksoverheid, "Regeling - Wet bescherming persoonsgegevens - BWBR0011468" , 2017-03-10. Retrieved on 2017-5-7.