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1. Teen-Robot Interaction: A Pilot Study of Engagement with a Low-fidelity Prototype

   https://doi.org/10.1145/3173386.3177068  

   Björling, Elin A. ; Rose, Emma ; Ren, Rachel ( January 2018 , ACM/IEEE International Conference on Human-Robot Interaction, March 2018)

   Today’s teens will most likely be the first generation to spend a lifetime living and interacting with both mechanical and social robots. Although human-robot interaction has been explored in children, adults, and seniors, examination of teen-robot interaction has been minimal. Using human-centered design, our team is developing a social robot to gather stress and mood data from teens in a public high school. As part of our preliminary design stage, we conducted a interaction pilot study in the wild to explore and capture teens’ initial interactions with a lowfidelity social robot prototype. We observed strong engagement and expressions of empathy from teens during our qualitative, interaction studies. 

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2. Designing a Collaborative Virtual Reality Game for Teen-Robot Interactions

   https://doi.org/10.1145/3311927.3325314  

   Kim, Ada S. ; Bhatia, Simran ; Björling, Elin A. ; Li, Dong ( June 2019 , Designing a Collaborative Virtual Reality Game for Teen-Robot Interactions)

   Virtual reality (VR) offers potential as a prototyping tool for human-robot interaction. We explored a way to utilize human-centered design (HCD) methodology to develop a collaborative VR game for understanding teens’ perceptions of, and interactions with, social robots. Our paper features three stages of the design process for teen-robot interaction in VR; ideation, prototyping, and game development. In the ideation stage, we identified three important design principles: collaboration, customization, and robot characterization. In the prototyping stage, we developed a card game, conducted gameplay, and confirmed our design principles. Finally, we developed a low-fidelity VR game and received teens’ feedback. This exploratory study highlights the potential of VR, both for collaborative robot design and teen-robot interaction studies. 

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3. I Am the Robot: Teen Collaboration in an Asymmetric, Virtual Reality Game

   https://doi.org/10.3389/frvir.2021.746521  

   Björling, Elin A. ; Kim, Ada ; Oleson, Katelynn ; Alves-Oliveira, Patrícia ( January 2022 , Frontiers in Virtual Reality)

   Virtual reality (VR) offers potential as a collaborative tool for both technology design and human-robot interaction. We utilized a participatory, human-centered design (HCD) methodology to develop a collaborative, asymmetric VR game to explore teens’ perceptions of, and interactions with, social robots. Our paper illustrates three stages of our design process; ideation, prototyping, and usability testing with users. Through these stages we identified important design requirements for our mid-fidelity environment. We then describe findings from our pilot test of the mid-fidelity VR game with teens. Due to the unique asymmetric virtual reality design, we observed successful collaborations, and interesting collaboration styles across teens. This study highlights the potential for asymmetric VR as a collaborative design tool as well as an appropriate medium for successful teen-to-teen collaboration. 

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4. Participatory Research Principles in Human-Centered Design: Engaging Teens in the Co-Design of a Social Robot

   https://doi.org/10.3390/mti3010008  

   Björling, Elin ; Rose, Emma ( March 2019 , Multimodal Technologies and Interaction)

   Social robots are emerging as an important intervention for a variety of vulnerable populations. However, engaging participants in the design of social robots in a way that is ethical, meaningful, and rigorous can be challenging. Many current methods in human–robotic interaction rely on laboratory practices, often experimental, and many times involving deception which could erode trust in vulnerable populations. Therefore, in this paper, we share our human-centered design methodology informed by a participatory approach, drawing on three years of data from a project aimed to design and develop a social robot to improve the mental health of teens. We present three method cases from the project that describe creative and age appropriate methods to gather contextually valid data from a teen population. Specific techniques include design research, scenario and script writing, prototyping, and teens as operators and collaborative actors. In each case, we describe the method and its implementation and discuss the potential strengths and limitations. We conclude by situating these methods by presenting a set of recommended participatory research principles that may be appropriate for designing new technologies with vulnerable populations. 

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5. The Effect of Interaction and Design Participation on Teenagers’ Attitudes towards Social Robots

   https://doi.org/10.1109/RO-MAN46459.2019.8956427  

   Bjorling, Elin A. ; Xu, Wendy M. ; Cabrera, Maria E. ; Cakmak, Maya ( October 2019 , The Effect of Interaction and Design Participation on Teenagers’ Attitudes towards Social Robots)

   Understanding people's attitudes towards robots and how those attitudes are affected by exposure to robots is essential to the effective design and development of social robots. Although researchers have been studying attitudes towards robots among adults and even children for more than a decade, little has been explored assessing attitudes among teens-a highly vulnerable population that presents unique opportunities and challenges for social robots. Our work aims to close this gap. In this paper we present findings from several participatory robot interaction and design sessions with 136 teenagers who completed a modified version of the Negative Attitudes Towards Robots Scale (NARS) before participation in a robot interaction. Our data reveal that most teens are 1) highly optimistic about the helpfulness of robots, 2) do not feel nervous talking with a robot, but also 3) do not trust a robot with their data. Ninety teens also completed a post-interaction survey and reported a significant change in the motional attitudes subscale of the NARS. We discuss the implications of our findings on the design of social robots for teens. 

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