PRE2015 3 Groep3: Difference between revisions

Group Members

Student ID	Name
0903288	J.J.P. Beckers
0909421	N.J.A. Frints
0911264	R.G. Hup
0896239	S.J.W. Maas
0924760	H.V.C. Ramchurn
0923126	G.M. van Vliet

Pharmacy Service Help Robot

General introduction/Introducing the problem Nowadays when you need to get your medicine from the pharmacy, you have to wait to wait until an employee is available to help you. Not only this, but the pharmacy is often only open a certain time of the day. To create a solution for this problem we came up with the idea of a pharmacy robot. This machine is able to dispense your medicine any time of the day and is a lot faster than regular employees. You will be able to retrieve your medicine with the doctor’s prescription you received. This will be scanned and from this the machine is able to retrieve the correct medicine for you and give it to you. Since some medications require information about how to take them, an interface will be present to provide the information required via visual and audio.........

Goal

General goal of the system The goal of this project is to introduce a system in the pharmaceutical industry to improve the experiences user have. With it the user will be able to retrieve their medicine faster and with more ease...........

Unemployment

Supporting the concept with unemployment arguments

Waiting time

It is generally known that waiting times at pharmacies can be long. To verify this statement, literature research and both qualitative and quantitative research has been done.

According to NIVEL (Netherlands Institute or Health Services Research) ^[1], the average waiting time in a pharmacy, both public and private, is 9.2 minutes, with a standard deviation of 6.0 minutes. This includes queueing with other customers and waiting for the pharmacist to fetch the customers medicine. While a large part of the respondents (41,6%) states that they have to wait for 5 minutes or less, a significant part of respondents (44,6%) states that they have to wait for 10 minutes or more.

While these numbers represent both public and private pharmacies, the public pharmacies do have longer waiting times, with an average of 18 minutes. Respondents that are using public pharmacies stated that a waiting time of 7.5 minutes is most desirable. It could therefore be concluded that a significant part of pharmacy customers, both private and public, do not meet this desired waiting time.

As the average waiting time at public pharmacies it significantly higher than the average of both public and private pharmacies, it could be concluded that private pharmacies do have significantly shorter waiting times than public pharmacies. This could be confirmed by the dutch Mediq pharmacies, which state that their average waiting time is 1.77 minutes ^[2].

[ Results of our own research / questionnaire not completed yet ]

The conclusion could be made that the waiting time at pharmacies is acceptable in a lot of cases, but does not meet the desired values in other cases. While private pharmacies generally provide fast services, public pharmacies do lack such rapidity. By implementing the concept of a robotic pharmacy service help, the waiting times could be reduced, as a robot is faster than humans regarding fetching medicine, performing the majority of checks and dispensing the medicine to customers.

Costs

Supporting the concept with cost arguments

Research

We had decided to conduct an interview with a pharmacist, so we could expand our understanding of the current pharmacy system. We managed to get an appointment with Ellen Jansen, who works at Pharmacy Fellenoord. On the 24th of February two group members (Chiel van Vliet & Sil Maas) went over to the pharmacy and asked Ms. Jansen some questions. Both the questions and the (translated) answers can be found here.

One of the most important findings of the interview was that Ms. Jansen stated that 2 minutes is about the minimum time required for a pharmacist to get the requested medicine to the customer. Most medicine take notably more time to deliver to the customer. Ms. Jansen explained that most of this time is spent on checks; scanning medicine package, checking contents of medicine package, etc. This means that if we manage to automate these checks we could greatly improve on the time it takes to give a customer his medicine.

We also found that the current system of explaining to a customer how his/her medicine should be taken and when it should be taken, is far from perfect. Ms. Jansen explained that there are a lot of foreign people who come to pharmacy Fellenoord and often they speak neither Dutch nor English. This means that when the pharmacist gives the obligatory written and verbal explanation of the medicine, he can only really hope that the customer understood this. This is another problem that our idea could solve, for instance with an interface that has different language options. This way, non-Dutch speakers can still understand the explanation, because it is given in their native language.

Mr. Jansen also mentioned that she had noticed that were a lot of budget cuts coming through in the pharmacy sector. Budget cuts can easily lead to a lack of employees, which would worsen the current conditions (longer waiting times). Our new pharmacy robot could possibly solve this as well, simply by being more cost-efficient in the long run. Eventually the pharmacies will have lower costs without jeopardizing the quality of their work.

After the interview we finally got a chance to look at the "behind-the-scenes" part of the current pharmacy "vending machine", which is only used for repeated prescriptions. We already knew that this system sends a code via an SMS message to the customer, which he/she can type in to the touch screen of the machine to get their medicine. The user-interaction part is outside of the building, like a cash dispenser. However, now we got to see how the medicine is put into the machine. The same checks have to be performed before the medicine can be put in the machine. After the checks are done, the pharmacists scans the medicine package with a scanner connected to the machine and the SMS message is automatically send to the customer. Then the pharmacy selects a size of the box she wants to store the medicine in and the machine grabs a box of the right size and holds it behind a small window. The pharmacy then opens that window and puts the medicine in the box and lets the machine put the box back in its place in the storage area. Ms. Jansen explained that at larger pharmacies they have too many repeated prescriptions, so they keep the medicine in the machine for a limited amount of time.

USE

alle USE aspecten

Users

Primairy

Secondary

Tertiary

Society

Enterprise

Implementation

How will this system work in the real world

The system

The complete system of the Parmacy Service Help Robot will consist of two different parts. One part will consist of the storage room of the medicine and robots which will retrieve the medicine, and the other part will consist of the machine present in the pharmacy itself with which the user will ineteract. Since there already exist technoloies for the storage part of the system, we will not focus on it for the design but instead focus on the other part of the stystem.

For the design of the machine the general concept of a ticket dispenser was chosen as base. It will consist of multiple parts, a touchscreen as interface, a speaker for audio support, a container in which the medice is delivered, a payment system so the user is able to pay for their medicine and a scanner for the medicine codes.........

Storage

Storage system

User Interface

UI related stuff

Controllers

regelaars etc.

Results

results form the project

Conclusion

conclusion of the project

Planning

ToDo -> add

Files

ToDo -> add file links

• Concept presentation
• Feedback presentation

References