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Last modified by Sofia Kostakonti on 2022/04/05 14:08

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94.1

edited by Marlein Vogels
on 2022/04/03 20:24

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85.1

edited by Aleksanteri Hämäläinen
on 2022/04/03 17:49

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--XWiki.MarleinVogels
++XWiki.ahamalainen

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  = Method =
--The prototype was evaluated with an in-person experiment with multiple participants.
++The prototype is evaluated with an in-person experiment with multiple participants. In the experiment, the participants will be asked to pretend to be PwD and act accordingly with/without the prototype.
  == Participants ==
--As there are practical difficulties with conducting the experiment with actual people with dementia due to both time constraints and COVID, our participants' group consists of peers from other groups and friends. In total we had 19 people take part in our experiment.
++As there are practical difficulties with conducting the experiment with actual people with dementia due to both time constraints and COVID, our participants' group will consist of peers from other groups and friends, who will act as if they are older people with dementia. We plan to gather around 20 people for our experiments.
  == Experimental design ==
--For the experiment we used a within-subject design. All of the participants interacted with both versions of the robot, with half of the participants interacting with the version 1 first and then version 2, and the other half in reverse order. This was done to counter-balance the carryover effects. Snacks were made available for the participants, in case they were prompted and they ewre hungry. The participants were unaware of the possibility of eating snacks, to prevent disturbing the interaction with the robot. Otherwise the subjects would have been primed for eating, which would have biased the results and hide the effect of the robotic interaction.
++We will be using a within-subject design. In the experiment all of the participants will interact with both versions of the robot, with half of the participants interacting with the version 1 first and then version 2, and the other half in reverse order, to counter-balance the carryover effects. Snacks will be made available for the participants, in case they're prompted and they're hungry. The participants will be unaware of the possibility of eating snacks, to prevent disturbing the interaction with the robot. Otherwise the subjects could be primed for eating, which would bias the results and hide the effect of the robotic interaction.
  == Tasks ==
--The participant interacted with the robot, which was programmed to engage in a lunch discourse. Two versions were implemented: the first version asks basic questions about mealtime, mostly acting as a reminder for the PwD to have lunch (basically an alarm clock). The second is our original implementation of it with the more sophisticated discourse and music.
++The participant will have to interact with the robot, which is programmed to engage in a lunch discourse. Two versions will be implemented: the first version will ask basic questions about mealtime, mostly acting as a reminder for the PwD to have lunch (alarm clock). The second will be our original implementation of it with the more sophisticated discourse and music.
  == Measures ==
--We measured the effectiveness of the discourse, both physically and emotionally. Our quantitative measure was whether the person ate the lunch they were supposed to have eaten, and the qualitative measure was the emotions that the PwD experienced before, during, and after the interaction. The qualitative measures were recorded with a simple questionnaire. Some people were not hungry enough to be prompted to have something to eat, which disturbed the results. However we did measure whether the robot reminded someone of their hunger and if they ate.
++We plan on measuring the effectiveness of the discourse, both physically and emotionally. Our quantitative measure is whether the person ate the lunch they were supposed to have eaten, and the qualitative measure is the emotions that the PwD experienced before, during, and after the interaction. The qualitative measures will be recorded with a simple questionnaire. Depending on the time of the experiments, we assume that people might also not be hungry enough to be prompted to have something to eat, which might disturb the results. We do plan however to measure whether the robot will remind someone of their hunger and have them eat.
  == Procedure ==
--The procedure was conducted as follows:
++* Welcome Participants and explain what they are going to be doing.
++* Have them sign the permission form.
++* Participants complete a questionnaire(A) regarding their emotional state (control).
++* Have version A of interaction with the robot.
++* Complete questionnaire(extended version).
++* Have a short interview during downtime (prepared questions).
++* Have version B of interaction with the robot.
++* Complete questionnaire(extended version).
++* Have a short interview during downtime (prepared questions).
--1. Welcome participant and explain what they are going to be doing.
--1. Have them sign the permission form.
--1. Complete questionnaire 1 regarding their emotional state (control).
--1. Have an interaction with version A of the robot.
--1. Complete questionnaire 2 (extended version).
--1. Have a short interview during downtime (prepared questions).
--1. Have an interaction with version B of the robot.
--1. Complete questionnaire 3 (extended version).
--1. Have a short interview during downtime (prepared questions).
++== Material ==
++For the experiments, we'll be using the NAO robot platform, as well as a laptop for the participants to complete the questionnaires on. The questionnaire will be a combination of questions regarding the emotional state of the participants, their interaction with the robot, and the music included in the interaction. Food will be made available to see and measure how much people will eat.
--We used the "Wizard of Oz" method for recognizing agreement and disagreement, to make sure that the whole process did not depend on voice recognition being good enough. In practice, this meant that someone was pressing "y" and "n" on the keyboard according to the participants answers in a place the participant did not see, such as behind them.
++Questionnaires:
++Consent Form and Disclaimers
++8 questions from the [[EVEA>>https://www.ucm.es/data/cont/docs/39-2013-04-19-EVEA%20-%20Datasheet.pdf]] questionnaire
++4 questions from the [[Godspeed>>https://www.bartneck.de/2008/03/11/the-godspeed-questionnaire-series/]] questionnaire
++3 food-related questions of our own (5-point Likert scale)
++2 music-related questions of our own (5-point Likert scale)
--== Material ==
++== Practicalities ==
--For the experiments, we used the NAO robot platform, and a laptop to control it with. The participants completed the questionnaires on their phones by scanning a QR code. The questionnaires are a combination of questions regarding the emotional state of the participants, their interaction with the robot, and the music included in the interaction. Stroopwafels and water in a clean cup were made available to see and measure how much people ate.
++Beforehand:
--Below are listed the contents of the three questionnares:
++* Do a practice round by ourselves
++** Film this
++* Contact other groups and decide on a time slot
++** Might be better to reserve in 10 min slots, so that people don't have to wait so much
++** If possible, this could be done in parallel with another groups testing
++* Reserve lab
++* Buy snacks
--Questionnare 1:
--* Consent Form and Disclaimers
--* Control for robot version A
--** 8 questions from the [[EVEA>>https://www.ucm.es/data/cont/docs/39-2013-04-19-EVEA%20-%20Datasheet.pdf]] questionnaire
--** 4 questions from the [[Godspeed>>https://www.bartneck.de/2008/03/11/the-godspeed-questionnaire-series/]] questionnaire
++During:
--Questionnare 2:
--* Questions about robot version A
--** 3 food-related questions of our own (5-point Likert scale)
--** 2 music-related questions of our own (5-point Likert scale)
--* Control for robot version B
--** 8 questions from the [[EVEA>>https://www.ucm.es/data/cont/docs/39-2013-04-19-EVEA%20-%20Datasheet.pdf]] questionnaire
--** 4 questions from the [[Godspeed>>https://www.bartneck.de/2008/03/11/the-godspeed-questionnaire-series/]] questionnaire
++1. Give starting questionnare to fill while people are waiting for the previous participant
++2. Guide the participant to the testing spot
++3. Inform the participant where the snacks are
++4. Run the first version
++5. Give the mid-questionnare
++6. Run the other test
++7. Conduct the questionnare for the participant
++8. Give the participant the end-questionnare
--Questionnare 3:
--* Questions about robot version B
--** 3 food-related questions of our own (5-point Likert scale)
--** 2 music-related questions of our own (5-point Likert scale)
++Other practicalities during:
--== Practicalities ==
++* We will use the "Wizard of Oz" method for recognizing agreement and disagreement, to make sure that the whole process does not depend on voice recegnition being good enough
++** Someone will press eg. "y" and "n" on the keyboard according to the participants answers
++* We will change the order in which the smart and basic versions are for each participant
++** this way if someone doesn't show up, we don't get skewed amounts
--Before the experiment we:
++After:
--* did a practice round by ourselves
--** This was filmed to have a controlled performance to give an example of the experiment if needed
--* contacted other groups and decide on scheduling
--** Each participant was booked a 20 min slot
--* reserved the lab
--* bought the stroopwafels
++* Analyze results
  = Results =
@@ -219,29 +219,6 @@
  |Statistic|36|70
  |P-value|0.01|0.17
--== Qualitative Results: Quotes and observations ==
--As described, during the experiment, the interaction between the participants and the robot was observed. This section will elaborate on findings from those observations and quotes from participants.
--
--After each interaction section, the the participant was asked how the interaction with the robot felt. From the interaction with the less intelligent version of the robot, some interesting quotes were:
--* “The robot was bit direct.”
--* “Efficient interaction, but less friendly than the other interaction.”
--* “Strange, I did not catch the questions.”
--* “It felt short.”
--Some of these quotes stress the fact that the less intelligent prototype interaction was rather short and direct. It should be said that the sequence of the interactions seemed to have some impact on how the participants experienced the interaction. Some participants who first experienced the less intelligent prototype were smiling and positively surprised during this interaction, while others who first experienced the intelligent prototype were over all smiling less while interacting with the less intelligent robot.
--
--From the interaction with the intelligent version of the robot, some interesting quotes were:
--* “I think it’s perfect, the robot is very friendly. I liked that the robot sat down with me after a while.”
--* “The interaction felt quite natural.”
--* “Nao answered pretty quickly, you don’t have to wait for an answer. It is quite a happy robot.”
--* “Suggestion to eat was still a bit on the side, a little subtle if I would have dementia.”
--* “Very nice, calming, I could have stayed longer with the music.”
--* “It was good, natural, understands what I’m saying.”
--Some participants clearly expressed how friendly they found the intelligent version of the robot. The sequence of the interactions did not seem to impact their feeling about the interaction as much as with the interaction with the less intelligent version of the robot.
--Some reported that the interaction felt natural and intuitive.
--As for the music, some participants told us that the music did was a useful and pleasant addition to the interaction with the robot.
--As for the suggestion to eat and drink, one participant reported that the suggestions to eat and drink were perhaps too friendly and too subtle.
--From our observations, it seemed as if participants were either smiling more during the interaction with the intelligent version of the robot or concentrating on the interaction more carefully compared to the interaction with the less intelligent version of the robot.
--
  = Discussion =
  Analysis the results surfaced some minor issues in the experiment, such as the lack of comparison with two robots of similar features, with and without music. Also the practical limitations in the setup, such as the lack of different food options and some participants being aware of the design goals of the prototype could have interfered with the natural flow of the intercourse. With these limitations, the research method was successful in extracting differences within the robots and brought up additional directions for future research.
@@ -249,8 +249,6 @@
  Another topic to study is the differences with and without music. The effects of music could be studied with the music tailored to personal taste and all versions of the robot with and without the music playback included in the interaction. This would allow to pinpoint the effects of music, without the other features causing variance.
--Lastly, the observations and interviews with the participants clearly demonstrated that for now, that a more friendly and intelligent robot does make the interaction with the robot more pleasant.
--
  = Conclusions =
  From the results we can see that the more advanced robot shows advantages over the simple version in many categories. Hints of better performance in other categories can be seen, but no conclusions should be drawn from the ones that lack the statistical significance.