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Changes for page 3. Evaluation Methods

Last modified by William OGrady on 2024/04/08 22:22
From version 17.1
edited by Rixt Hellinga
on 2024/03/03 23:14
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To version 7.1
edited by Jean-Paul Smit
on 2024/03/01 02:54
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1 -To ground the design rationale in practice, the prototype of the NAO for the subject will be evaluated in a formative evaluation with the subject and their caregivers. The evaluation will investigate the process of how interaction with the NAO can alleviate potential symptoms caused by early-stage dementia in subjects.  Three methods of evaluation will be applied to have reliable and accurate results, as Bethel. et al (2020)[1] suggests. Three of these methods could be the Wizard of Oz method, the Thinking out loud method, and the Cooperative Evaluation method.
1 +To ground the design rationale in practice, the prototype of the NAO for PwD will be evaluated in a formative evaluation with the PwD (subject) and their caregivers. The evaluation will investigate the process of how interaction with the NAO can alleviate potential symptoms caused by early-stage dementia in PwD.  Three methods of evaluation will be applied to have reliable and accurate results, as Bethel. et al (2020)[1] suggests. The study will focus on the prototype's potential effects, which are based on the desired value of autonomy as a part of self-direction. Before the study, possible confounding variables need to be examined such as the subject's attitude towards robots and the baseline sense of affect and autonomy.
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3 -The study will focus on the prototype's potential effects, which are based on the desired value of autonomy as a part of self-direction. Before the study, possible confounding variables need to be examined such as the subject's attitude towards robots and the **autonomy, relatedness** and **security**.
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5 5  ==== Study design claims ====
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7 7  The study will investigate the claims on the following questions:
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9 -~1. **Autonomy. **Does the design increase the sense of //autonomy //in a subject?
7 +~1. Does the design increase the sense of //autonomy //in PwD?
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11 -2. **Relatedness. **Does the design positively affect the subject's //affective //state? Do subjects //like// the system?
9 +2. Does the design positively affect PwD's //affective //state?
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13 -3. **Security. **Is the design //dependable//; is the design accessible enough for the subject to rely on it? Does it feel natural?
11 +3. Is the design //dependable//; do PwD sense that they can rely on it?
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16 -For a sample size as small as 20 participants, it is most adequate to apply a within-subjects design (they require fewer participants) [1]. That means there is an approach where every subject is experiencing all of the conditions examined. A within-subjects design might be prone to confounds such as pre-existing notions in the environment. That is why the attitude towards robots and the pre-study sense of affect and autonomy should be examined and evaluated as such. Another confounder variable to look into is the study location and environment. The evaluation method will be self-assessment, which can only be included in the study when it is validated.
14 +For a sample size as small as 20 participants, it is most adequate to apply a within-subjects design (they require fewer participants)[1]. That means there is an approach where every subject is experiencing all of the conditions examined. A within-subjects design might be prone to confounds such as pre-existing notions in the environment. That is why the attitude towards robots and the pre-study sense of affect and autonomy should be examined and evaluated as such. Another confounder variable to look into is the study location and environment.
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16 +The evaluation methods will be self-assessment, which can only be included in the study when it is validated.
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19 19  [[image:Socio-Cognitive Engineering - Frame 1.jpg]]
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21 -/
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24 24  == References ==
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26 26  (1) Bethel, C.L., Henkel, Z., Baugus, K. (2020). Conducting Studies in Human-Robot Interaction. In: Jost, C., //et al.// Human-Robot Interaction. Springer Series on Bio- and Neurosystems, vol 12. Springer, Cham. https:~/~/doi.org/10.1007/978-3-030-42307-0_4