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Urban stormwater management is increasingly a challenge due to land use change, aging infrastructure, and climate‐driven precipitation variability. Likewise, maintaining regulatory compliance for stormwater permits is becoming more difficult. This study develops and deploys stormwater sensors using an Internet of Things‐based monitoring framework on the University of Maryland campus, a spatially compact but land use diverse testbed, designed to support both compliance and adaptive planning. Across three campus outfalls for stormwater quantity and quality data collection, the study investigates how hyperlocal precipitation and catchment characteristics affect stormwater flow and identifies key patterns in stormwater flow and quality through continuous monitoring. Findings reveal correlations between runoff behaviors and catchment characteristics (i.e., imperviousness) and highlight site‐specific associations between runoff flow and water quality indicators (pH, turbidity, conductivity, and dissolved oxygen). These associations can be leveraged as indicators of flood and pollution risk for management and planning purposes. This study also explores the role of campus stakeholders in guiding a “smart” system design, deployment, and big data use and outlines adaptive and preventive strategies for mitigating field deployment challenges and optimizing system performance that is a practical, compliance‐oriented model for smart stormwater monitoring in complex urban settings at various scales. 

Children are exposed to technology at home and school at very young ages, often using family mobile devices and educational apps. It is therefore critical that they begin learning about privacy and security concepts during their elementary school years, rather than waiting until they are older. Such skills will help children navigate an increasingly connected world and develop agency over their personal data, online interactions, and online security. In this paper, we explore how a simple technique---a ''Would Your Rather'' (WYR) game involving hypothetical privacy and security scenarios---can support children in working through the nuances of these types of situations and how educators can leverage this approach to support children's privacy and security learning. We conducted three focus groups with 21 children aged 7-12 using the WYR activity and interviewed 13 elementary school teachers about the use of WYR for facilitating privacy and security learning. We found that WYR provided a meaningful opportunity for children to assess privacy and security risks, consider some of the social and emotional aspects of privacy and security dilemmas, and assert their agency in a manner typically unavailable to children in an adult-centric society. Teachers highlighted connections between privacy and security dilemmas and children's social and emotional learning and offered additional insights about using this WYR technique in and beyond their classrooms. Based on these findings, we highlight four opportunities for using WYR to support children in engaging with privacy and security concepts from an early age. 

With the rapid shift to remote learning in the early days of the COVID-19 pandemic, parents, teachers, and students had to quickly adapt to what scholars have called emergency remote learning (ERL). This transition required increased reliance on digital tools, exacerbating privacy and security threats associated with expanded data collection and new vulnerabilities. In this study, we adopt a sociotechnical and infrastructural perspective to understand how these threats emerged through breakdowns and tensions in elementary school ERL. Through interviews with 29 US-based teachers and parents of elementary school students (grades PreK-6), we identify two core findings related to privacy and security. First, we detail three breakdowns in the ERL sociotechnical infrastructure: (1) reduced attention to privacy and security issues as parents and teachers cobbled together a patchwork of tools needed to make ERL work; (2) privacy and security risks that emerged from ambiguous and shifting school policies; and (3) the failure to adapt standard authentication mechanisms (e.g., passwords) to be usable by young children. Second, we identify tensions between parents' and teachers' desire to help children advance in their education and their desire for children's privacy and security in ERL, as well as tensions resulting from the collapse of home and school contexts. These findings collectively suggest that ERL exacerbated existing--and created new--privacy and security challenges for young students, and we argue these challenges will carry beyond the pandemic due to the increasing use of technology to supplement traditional education. In light of these findings, we recommend researchers and educators use a framework of care to develop social and technical approaches to improving remote learning in order to protect children's privacy and security. 

Many children are growing up in a “digital-by-default” world, where technologies mediate many of their interactions. There is emerging consensus that those who design technology must support children’s privacy and security. However, privacy and security are complex concepts that are challenging to design for, and centering the interests of children is similarly difficult. Through a document analysis of 90 HCI publications, we examine what problems and solutions designing for children’s privacy and security addresses and how this research engages with children. Applying Solove’s privacy taxonomy, we find that research addresses a range of problems related to information collection, processing, dissemination, and invasion at the organizational, system, and individual levels. Children’s participation in this research is largely limited to providing feedback rather than helping to guide the research itself. Based on these findings, we offer recommendations for designers to sharpen their privacy and security contributions and center children in their work. 

Researchers and policymakers advocate teaching children about digital privacy, but privacy literacy has not been theorized for children. Drawing on interviews with 30 families, including 40 children, we analyze children’s perspectives on password management in three contexts—family life, friendship, and education—and develop a new approach to privacy literacy grounded in Nissenbaum’s contextual integrity framework. Contextual integrity equates privacy with appropriate flows of information, and we show how children’s perceptions of the appropriateness of disclosing a password varied across contexts. We explain why privacy literacy should focus on norms rather than rules and discuss how adults can use learning moments to strengthen children’s privacy literacy. We argue that equipping children to make privacy-related decisions serves them better than instructing them to follow privacy-related rules. 

We introduce PrototypAR, an Augmented Reality (AR) system that allows children to rapidly build complex systems using paper crafts and to test their designs in a digital environment. PrototypAR combines lo-fidelity prototyping to facilitate iterative design, real-time AR feedback to scaffold learning, and a virtual simulation environment to support personalized experiments. Informed by three participatory design sessions, we developed three PrototypAR applications: build-a-bike, build-a-camera, and build-an-aquarium---each highlights different aspects of our system. To evaluate PrototypAR, we conducted four single-session qualitative evaluations with 21 children working in teams. Our findings show how children build and explore complex systems models, how they use AR scaffolds, and the challenges they face when conducting experiments with their own prototypes.