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1. Towards Building Community Collective Efficacy for Managing Digital Privacy and Security within Older Adult Communities

   https://doi.org/10.1145/3432954  

   Kropczynski, Jess; Aljallad, Zaina; Elrod, Nathan Jeffrey; Lipford, Heather; Wisniewski, Pamela J. (January 2021, Proceedings of the ACM on Human-Computer Interaction)

   null (Ed.)

   Older adults are increasingly becoming adopters of digital technologies, such as smartphones; however, this population remains particularly vulnerable to digital privacy and security threats. To date, most research on technology used among older adults focuses on helping individuals overcome their discomfort or lack of expertise with technology to protect them from such threats. Instead, we are interested in how communities of older adults work together to collectively manage their digital privacy and security. To do this, we surveyed 67 individuals across two older adult communities (59 older adults and eight employees or volunteers) and found that the community's collective efficacy for privacy and security was significantly correlated with the individuals' self-efficacy, power usage of technology, and their sense of community belonging. Community collective efficacy is a group's mutual belief in its ability to achieve a shared goal. Using social network analysis, we further unpacked these relationships to show that many older adults interact with others who have similar technological expertise, and closer-knit older adult communities that have low technology expertise (i.e., low power usage and self-efficacy) may increase their community collective efficacy for privacy and security by embedding facilitators (e.g., employees or volunteers) who have more technical expertise within their communities. Our work demonstrates how both peer influence and outside expertise can be leveraged to support older adults in managing their digital privacy and security. 

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2. Time‐Varying Spatial Propagation of Brain Networks in fMRI Data

   https://doi.org/10.1002/hbm.70131  

   Bostami, Biozid; Lewis, Noah; Agcaoglu, Oktay; Turner, Jessica_A; van_Erp, Theo; Ford, Judith_M; Fouladivanda, Mahshid; Calhoun, Vince; Iraji, Armin (January 2025, Human Brain Mapping)

   ABSTRACT Spontaneous neural activity coherently relays information across the brain. Several efforts have been made to understand how spontaneous neural activity evolves at the macro‐scale level as measured by resting‐state functional magnetic resonance imaging (rsfMRI). Previous studies observe the global patterns and flow of information in rsfMRI using methods such as sliding window or temporal lags. However, to our knowledge, no studies have examined spatial propagation patterns evolving with time across multiple overlapping 4D networks. Here, we propose a novel approach to study how dynamic states of the brain networks spatially propagate and evaluate whether these propagating states contain information relevant to mental illness. We implement a lagged windowed correlation approach to capture voxel‐wise network‐specific spatial propagation patterns in dynamic states. Results show systematic spatial state changes over time, which we confirmed are replicable across multiple scan sessions using human connectome project data. We observe networks varying in propagation speed; for example, the default mode network (DMN) propagates slowly and remains positively correlated with blood oxygenation level‐dependent (BOLD) signal for 6–8 s, whereas the visual network propagates much quicker. We also show that summaries of network‐specific propagative patterns are linked to schizophrenia. More specifically, we find significant group differences in multiple dynamic parameters between patients with schizophrenia and controls within four large‐scale networks: default mode, temporal lobe, subcortical, and visual network. Individuals with schizophrenia spend more time in certain propagating states. In summary, this study introduces a promising general approach to exploring the spatial propagation in dynamic states of brain networks and their associated complexity and reveals novel insights into the neurobiology of schizophrenia. 

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3. Digital data storage on DNA tape using CRISPR base editors

   https://doi.org/10.1038/s41467-023-42223-4  

   Sadremomtaz, Afsaneh; Glass, Robert F.; Guerrero, Jorge Eduardo; LaJeunesse, Dennis R.; Josephs, Eric A.; Zadegan, Reza (October 2023, Nature Communications)

   Abstract While the archival digital memory industry approaches its physical limits, the demand is significantly increasing, therefore alternatives emerge. Recent efforts have demonstrated DNA’s enormous potential as a digital storage medium with superior information durability, capacity, and energy consumption. However, the majority of the proposed systems require on-demand de-novo DNA synthesis techniques that produce a large amount of toxic waste and therefore are not industrially scalable and environmentally friendly. Inspired by the architecture of semiconductor memory devices and recent developments in gene editing, we created a molecular digital data storage system called “DNA Mutational Overwriting Storage” (DMOS) that stores information by leveraging combinatorial, addressable, orthogonal, and independent in vitro CRISPR base-editing reactions to write data on a blank pool of greenly synthesized DNA tapes. As a proof of concept, this work illustrates writing and accurately reading of both a bitmap representation of our school’s logo and the title of this study on the DNA tapes. 

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4. The materials tetrahedron has a “digital twin”

   https://doi.org/10.1557/s43577-021-00214-0  

   Deagen, Michael E.; Brinson, L. Catherine; Vaia, Richard A.; Schadler, Linda S. (February 2022, MRS Bulletin)

   AbstractFor over three decades, the materials tetrahedron has captured the essence of materials science and engineering with its interdependent elements of processing, structure, properties, and performance. As modern computational and statistical techniques usher in a new paradigm of data-intensive scientific research and discovery, the rate at which the field of materials science and engineering capitalizes on these advances hinges on collaboration between numerous stakeholders. Here, we provide a contemporary extension to the classic materials tetrahedron with a dual framework—adapted from the concept of a “digital twin”—which offers a nexus joining materials science and information science. We believe this high-level framework, the materials–information twin tetrahedra (MITT), will provide stakeholders with a platform to contextualize, translate, and direct efforts in the pursuit of propelling materials science and technology forward. Impact statementThis article provides a contemporary reimagination of the classic materials tetrahedron by augmenting it with parallel notions from information science. Since the materials tetrahedron (processing, structure, properties, performance) made its first debut, advances in computational and informational tools have transformed the landscape and outlook of materials research and development. Drawing inspiration from the notion of a digital twin, the materials–information twin tetrahedra (MITT) framework captures a holistic perspective of materials science and engineering in the presence of modern digital tools and infrastructures. This high-level framework incorporates sustainability and FAIR data principles (Findable, Accessible, Interoperable, Reusable)—factors that recognize how systems impact and interact with other systems—in addition to the data and information flows that play a pivotal role in knowledge generation. The goal of the MITT framework is to give stakeholders from academia, industry, and government a communication tool for focusing efforts around the design, development, and deployment of materials in the years ahead. Graphic abstract 

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5. Long‐distance Friends and Collective Action in Fisheries Management

   https://doi.org/10.1111/conl.13073  

   Smith, Kristopher_M; Pisor, Anne_C; Aron, Bertha; Bernard, Kasambo; Fimbo, Paschal; Machano, Haji; Kimesera, Rose; Rubens, Jason; Slade, Lorna; Sobo, Jumanne; et al (December 2024, Conservation Letters)

   ABSTRACT Much received wisdom in the conservation literature is that individual connections across community boundaries undercut natural resource management. However, when multiple communities access the same resource, these long‐distance relationships could generate interdependence and trust to motivate engagement in collective action to manage the resource. To test this, we interviewed 1317 people in 28 fishing villages in Tanzania about their participation in managing open‐access fisheries and their social relationships in each village accessing the fishery. People with more friends in other villages trusted more people in those villages and were more likely to participate in collective action to manage the shared fishery, such as reporting others for destructive fishing practices. These results show that long‐distance relationships may be a useful foundation upon which to build conservation efforts that cross community boundaries and bolster sustainable resource use. 

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