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1. Let Them Have Bubbles! Filling Gaps in Toy-Like Behaviors for Child-Robot Interaction

   https://doi.org/10.1109/ICRA46639.2022.9812031  

   Helmi, Ameer; Noregaard, Samantha; Giulietti, Natasha; Logan, Samuel W.; Fitter, Naomi T. (May 2022, IEEE International Conference on Robotics and Automation)

   Robot-mediated interventions are one promising and novel approach for encouraging motor exploration in young children, but knowledge about the effectiveness of toy-like features for child-robot interaction is limited. We were interested in understanding the characteristics of current toys to inform the design of interactive abilities for assistive robots. This work first provides a systematic review of toy characteristics in n=154 Fisher-Price products and then analyzes the effectiveness of common and uncommon toy-like behaviors from our custom assistive robot. Toy review results showed that light and sound features were significantly more common than bubbles, wheels, and self-propulsion. Exploratory play sessions with our assistive robot showed that bubbles were significantly more successful at encouraging child motion than other robot behaviors. Further, all studied robot behaviors demonstrated the capability to encourage child motion. The products of this work can inform the efforts of human-robot interaction and child development experts who study child mobility interventions. 

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2. Influence of a Socially Assistive Robot on Physical Activity, Social Play Behavior, and Toy-Use Behaviors of Children in a Free Play Environment: A Within-Subjects Study

   https://doi.org/10.3389/frobt.2021.768642  

   Raja Vora, Joseline; Helmi, Ameer; Zhan, Christine; Olivares, Eliora; Vu, Tina; Wilkey, Marie; Noregaard, Samantha; Fitter, Naomi T.; Logan, Samuel W. (November 2021, Frontiers in Robotics and AI)

   Background: Play is critical for children’s physical, cognitive, and social development. Technology-based toys like robots are especially of interest to children. This pilot study explores the affordances of the play area provided by developmentally appropriate toys and a mobile socially assistive robot (SAR). The objective of this study is to assess the role of the SAR on physical activity, play behavior, and toy-use behavior of children during free play. Methods: Six children (5 females, M age = 3.6 ± 1.9 years) participated in the majority of our pilot study’s seven 30-minute-long weekly play sessions (4 baseline and 3 intervention). During baseline sessions, the SAR was powered off. During intervention sessions, the SAR was teleoperated to move in the play area and offered rewards of lights, sounds, and bubbles to children. Thirty-minute videos of the play sessions were annotated using a momentary time sampling observation system. Mean percentage of time spent in behaviors of interest in baseline and intervention sessions were calculated. Paired-Wilcoxon signed rank tests were conducted to assess differences between baseline and intervention sessions. Results: There was a significant increase in children’s standing (∼15%; Z = −2.09; p = 0.037) and a tendency for less time sitting (∼19%; Z = −1.89; p = 0.059) in the intervention phase as compared to the baseline phase. There was also a significant decrease (∼4.5%, Z = −2.70; p = 0.007) in peer interaction play and a tendency for greater (∼4.5%, Z = −1.89; p = 0.059) interaction with adults in the intervention phase as compared to the baseline phase. There was a significant increase in children’s interaction with the robot (∼11.5%, Z = −2.52; p = 0.012) in the intervention phase as compared to the baseline phase. Conclusion: These results may indicate that a mobile SAR provides affordances through rewards that elicit children’s interaction with the SAR and more time standing in free play. This pilot study lays a foundation for exploring the role of SARs in inclusive play environments for children with and without mobility disabilities in real-world settings like day-care centers and preschools. 

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3. Sampling statistics are like story creation: a network analysis of parent–toddler exploratory play

   https://doi.org/10.1098/rstb.2021.0358  

   Karmazyn-Raz, Hadar; Smith, Linda B. (February 2023, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Actions in the world elicit data for learning and do so in a stream of interconnected events. Here, we provide evidence on how toddlers with their parent sample information by acting on toys during exploratory play. We observed 10 min of free-flowing and unconstrained object exploration of by toddlers (mean age 21 months) and parents in a room with many available objects ( n = 32). Borrowing concepts and measures from the study of narratives, we found that the toy selections are not a string of unrelated events but exhibit a suite of what we call coherence statistics: Zipfian distributions, burstiness and a network structure. We discuss the transient memory processes that underlie the moment-to-moment toy selections that create this coherence and the role of these statistics in the development of abstract and generalizable systems of knowledge. This article is part of the theme issue ‘Concepts in interaction: social engagement and inner experiences’. 

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4. Asymptotic Dynamics for Delayed Feature Learning in a Toy Model

   Bordelon, Blake; Kumar, Tanishq; Gershman, Samuel J; Pehlevan, Cengiz (June 2024, High-dimensional Learning Dynamics 2024: The Emergence of Structure and Reasoning at ICML 2024)

   We consider a toy model that exhibits grokking, recently advanced by [Kumar et al, 2023], and take advantage of the simple setting to derive the dynamics of the train and test loss using Dynamical Mean Field Theory (DMFT). This gives a closed-form expression for the gap between train and test loss that characterizes grokking in this toy model, illustrating how two parameters of interest -- NTK alignment and network laziness -- control the size of this gap and how grokking emerges as a uniquely offline property during repeated training over the same dataset. This is the first quantitative characterization of grokking dynamics in a general setting that makes no assumptions about weight decay, weight norm, etc. 

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5. A toy model for the relativistic Vlasov-Maxwell system

   https://doi.org/10.3934/krm.2021053  

   Ben-Artzi, Jonathan; Pankavich, Stephen; Zhang, Junyong (January 2022, Kinetic and Related Models)

   The global-in-time existence of classical solutions to the relativistic Vlasov-Maxwell (RVM) system in three space dimensions remains elusive after nearly four decades of mathematical research. In this note, a simplified "toy model" is presented and studied. This toy model retains one crucial aspect of the RVM system: the phase-space evolution of the distribution function is governed by a transport equation whose forcing term satisfies a wave equation with finite speed of propagation. 

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