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1. Get SMART: Collaborative Goal Setting with Cognitively Assistive Robots

   https://doi.org/10.1145/3568162.3576993  

   Kubota, Alyssa ; Pei, Rainee ; Sun, Ethan ; Cruz-Sandoval, Dagoberto ; Kim, Soyon ; Riek, Laurel D. ( January 2023 , Proceedings of the 2023 ACM/IEEE International Conference on Human-Robot Interaction (HRI ’23),)

   Many robot-delivered health interventions aim to support people longitudinally at home to complement or replace in-clinic treat- ments. However, there is little guidance on how robots can support collaborative goal setting (CGS). CGS is the process in which a person works with a clinician to set and modify their goals for care; it can improve treatment adherence and efficacy. However, for home-deployed robots, clinicians will have limited availability to help set and modify goals over time, which necessitates that robots support CGS on their own. In this work, we explore how robots can facilitate CGS in the context of our robot CARMEN (Cognitively Assistive Robot for Motivation and Neurorehabilitation), which delivers neurorehabilitation to people with mild cognitive impairment (PwMCI). We co-designed robot behaviors for supporting CGS with clinical neuropsychologists and PwMCI, and prototyped them on CARMEN. We present feedback on how PwMCI envision these behaviors supporting goal progress and motivation during an intervention. We report insights on how to support this process with home-deployed robots and propose a framework to support HRI researchers interested in exploring this both in the context of cognitively assistive robots and beyond. This work supports design- ing and implementing CGS on robots, which will ultimately extend the efficacy of robot-delivered health interventions. 

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2. Methods for Robot Behavior Adaptation for Cognitive Neurorehabilitation

   Kubota, Alyssa ; Riek, Laurel D. ( January 2021 , Annual review of control robotics and autonomous systems)

   null (Ed.)

   An estimated 11% of adults report experiencing some form of cognitive decline which may be associated with conditions such as stroke or dementia, and can impact their memory, cognition, behavior, and physical abilities. While there are no known pharmacological treatments for many of these conditions, behavioral treatments such as cognitive training can prolong the independence of people with cognitive impairments. These treatments teach metacognitive strategies to compensate for memory difficulties in their everyday lives. Personalizing these treatments to suit the preferences and goals of an individual is critical to improving their engagement and sustainment, as well as maximizing the treatment’s effectiveness. Robots have great potential to facilitate these training regimens and support people with cognitive impairments, their caregivers, and clinicians. This article examines how robots can adapt their behavior to be personalized to an individual in the context of cognitive neurorehabilitation. We provide an overview of existing robots being used to support neurorehabilitation, and identify key principles to working in this space. We then examine state-of-the-art technical approaches to enabling longitudinal behavioral adaptation. To conclude, we discuss our recent work on enabling social robots to automatically adapt their behavior and explore open challenges for longitudinal behavior adaptation. This work will help guide the robotics community as they continue to provide more engaging, effective, and personalized interactions between people and robots. 

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3. Behavior Adaptation for Robot-assisted Neurorehabilitation

   https://doi.org/10.1145/3434074.3446359  

   Kubota, Alyssa ; Riek, Laurel D. ( January 2021 , ACM/IEEE International Conference on Human-Robot Interaction (HRI) Pioneers)

   null (Ed.)

   11% of adults report experiencing cognitive decline which can im- pact memory, behavior, and physical abilities. Robots have great potential to support people with cognitive impairments, their caregivers, and clinicians by facilitating treatments such as cognitive neurorehabilitation. Personalizing these treatments to individual preferences and goals is critical to improving engagement and adherence, which helps improve treatment efficacy. In our work, we explore the efficacy of robot-assisted neurorehabilitation and aim to enable robots to adapt their behavior to people with cognitive impairments, a unique population whose preferences and abilities may change dramatically during treatment. Our work aims to en- able more engaging and personalized interactions between people and robots, which can profoundly impact robot-assisted treatment, how people receive care, and improve their everyday lives. 

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4. Somebody That I Used to Know: The Risks of Personalizing Robots for Dementia Care

   Kubota, A. ; Pourebadi, M ; Banh, S ; Kim, S ; Riek, L.D. ( January 2021 , In Proceedings of We Robot 2021)

   Robots have great potential to support people with dementia (PwD) and their caregivers. They can provide support for daily living tasks, conduct household chores, provide companionship, and deliver cognitive stimulation and training. Personalizing these robots to an individual’s abilities and preferences can help enhance the quality of support they provide, increase their usability and acceptability, and alleviate caregiver burden. However, personalization can also introduce many risks, including risks to the safety and autonomy of PwD, the potential to exacerbate social isolation, and risks of being taken advantage of due to dark patterns in robot design. In this article, we weigh the risks and benefits by drawing on empirical data garnered from the existing ecosystem of robots used for dementia caregiving. We also explore ethical considerations for developing personalized cognitively assistive robots for PwD, including how a robot can practice beneficence to PwD, where responsibility falls when harm to a PwD occurs because of a robot, and how a robot can acquire informed consent from a PwD. We propose key technical and policy concepts to help robot designers, lawmakers, and others to develop personalized robots that protect users from unintended consequences, particularly for people with cognitive impairments. 

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5. Somebody That I Used to Know: The Risks of Personalizing Robots for Dementia Care

   Kubota, A. ; Pourebadi, M ; Banh, S ; Kim, S ; Riek, L.D. ( January 2021 , Proceedings of We Robot 2021)

   Robots have great potential to support people with dementia (PwD) and their caregivers. They can provide support for daily living tasks, conduct household chores, provide companionship, and deliver cognitive stimulation and training. Personalizing these robots to an individual’s abilities and preferences can help enhance the quality of support they provide, increase their usability and acceptability, and alleviate caregiver burden. However, personalization can also introduce many risks, including risks to the safety and autonomy of PwD, the potential to exacerbate social isolation, and risks of being taken advantage of due to dark patterns in robot design. In this article, we weigh the risks and benefits by drawing on empirical data garnered from the existing ecosystem of robots used for dementia caregiving. We also explore ethical considerations for developing personalized cognitively assistive robots for PwD, including how a robot can practice beneficence to PwD, where responsibility falls when harm to a PwD occurs because of a robot, and how a robot can acquire informed consent from a PwD. We propose key technical and policy concepts to help robot designers, lawmakers, and others to develop personalized robots that protect users from unintended consequences, particularly for people with cognitive impairments. 

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