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1. "It's Not a Replacement:" Enabling Parent-Robot Collaboration to Support In-Home Learning Experiences of Young Children

   https://doi.org/10.1145/3613904.3642806  

   Ho, Hui-Ru; Hubbard, Edward M; Mutlu, Bilge (May 2024, ACM)

   Learning companion robots for young children are increasingly adopted in informal learning environments. Although parents play a pivotal role in their children’s learning, very little is known about how parents prefer to incorporate robots into their children’s learning activities. We developed prototype capabilities for a learning companion robot to deliver educational prompts and responses to parent-child pairs during reading sessions and conducted in-home user studies involving 10 families with children aged 3–5. Our data indicates that parents want to work with robots as collaborators to augment parental activities to foster children’s learning, introducing the notion of parent-robot collaboration. Our findings offer an empirical understanding of the needs and challenges of parent-child interaction in informal learning scenarios and design opportunities for integrating a companion robot into these interactions. We offer insights into how robots might be designed to facilitate parent-robot collaboration, including parenting policies, collaboration patterns, and interaction paradigms. 

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2. “My Unconditional Homework Buddy:” Exploring Children’s Preferences for a Homework Companion Robot

   https://doi.org/10.1145/3585088.3589388  

   Cagiltay, Bengisu; Mutlu, Bilge; Michaelis, Joseph E (June 2023, IDC '23: Proceedings of the 22nd Annual ACM Interaction Design and Children Conference)

   We aim to design robotic educational support systems that can promote socially and intellectually meaningful learning experiences for students while they complete school work outside of class. To pursue this goal, we conducted participatory design studies with 10 children (aged 10–12) to explore their design needs for robot assisted homework. We investigated children’s current ways of doing homework, the type of support they receive while doing homework, and co-designed the speech and expressiveness of a homework companion robot. Children and parents attending our design sessions explained that an emotionally expressive social robot as a homework aid can support students’ motivation and engagement, as well as their affective state. Children primarily perceived the robot as a dedicated assistant at home, capable of forming meaningful friendships, or a shared classroom learning resource. We present key design recommendations to support students’ homework experiences with a learning companion robot. 

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3. Understanding Factors that Shape Children’s Long Term Engagement with an In-Home Learning Companion Robot

   https://doi.org/10.1145/3501712.3529747  

   Cagiltay, Bengisu; White, Nathan Thomas; Ibtasar, Rabia; Mutlu, Bilge; Michaelis, Joseph (June 2022, Interaction Design and Children (IDC '22))

   Social robots are emerging as learning companions for children, and research shows that they facilitate the development of interest and learning even through brief interactions. However, little is known about how such technologies might support these goals in authentic environments over long-term periods of use and interaction. We designed a learning companion robot capable of supporting children reading popular-science books by expressing social and informational commentaries. We deployed the robot in homes of 14 families with children aged 10–12 for four weeks during the summer. Our analysis revealed critical factors that affected children’s long-term engagement and adoption of the robot, including external factors such as vacations, family visits, and extracurricular activities; family/parental involvement; and children’s individual interests. We present four in-depth cases that illustrate these factors and demonstrate their impact on children’s reading experiences and discuss the implications of our findings for robot design. 

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4. RoboMath: Designing a Learning Companion Robot to Support Children’s Numerical Skills

   https://doi.org/10.1145/3459990.3460709  

   Ho, Hui-Ru; Cagiltay, Bengisu; White, Nathan Thomas; Hubbard, Edward M.; Mutlu, Bilge (June 2021, IDC '21: Interaction Design and Children)

   null (Ed.)

   Children’s early numerical knowledge establishes a foundation for later development of mathematics achievement and playing linear number board games is effective in improving basic numeri- cal abilities. Besides the visuo-spatial cues provided by traditional number board games, learning companion robots can integrate multi-sensory information and offer social cues that can support children’s learning experiences. We explored how young children experience sensory feedback (audio and visual) and social expressions from a robot when playing a linear number board game, “RoboMath.” We present the interaction design of the game and our investigation of children’s (n = 19, aged 4) and parents’ experiences under three conditions: (1) visual-only, (2) audio-visual, and (3) audio- visual-social robot interaction. We report our qualitative analysis, including the themes observed from interviews with families on their perceptions of the game and the interaction with the robot, their child’s experiences, and their design recommendations. 

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5. Exploring Student Perspectives on Interacting with Social Robots for Homework

   Ho, Hui-Ru; Cagiltay, Bengisu; Wang, Justina; Ibtasar, Rabia; Mutlu, Bilge; Michaelis, Joseph E (June 2026, ACM)

   Educational robots are increasingly adopted to support children's learning through interactive and personalized learning. Social interaction remains a crucial mechanism for effective learning, yet teacher and parental involvement in out-of-class learning activities is minimal or limited to supervisory roles. To support students with socially and intellectually meaningful learning experiences and to augment teachers' pedagogical strategies outside of a classroom environment, we aim to explore the design of \textit{a learning companion robot} by building a better understanding of the use cases for robot-assisted homework. In this paper, we report on findings from in-home technology probe studies with 10 students (aged 10--12), which revealed student expectations surrounding \textit{what} support needs to be delivered by the robot and \textit{how} it should be delivered. We discuss the themes of our findings and their implications for future design of social robots for homework assistance. 

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