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1. Flying SD Cards, Aerial Repeaters, & Homebrew Apps: Emergent Use of Technologies for Collaboration in Search and Rescue

   LaLone, Nicolas James ; Van Natta, Jared ; Zemedie, Mahlet ; Cormier, Michelle V. ; Fraune, Marlena ; Hamilton, Bill ; Toups Dugas, Phoebe O. ; Alharthi, Sultan A. ( May 2023 , Proceedings of the 20th ISCRAM Conference)

   Radianti, J. ; Dokas, I. ; LaLone, N. ; Khazanchi, D. (Ed.)

   Search and rescue (SAR) teams are the first to respond to emergencies. This could include finding lost hikers, shoring buildings, or aiding people post-disaster. SAR combines orienteering, engineering, field medicine, and communication. Technology use in SAR has been changing with the proliferation of information communication technologies; so, we ask, how are established and emerging technologies used in SAR? Understanding how responders are adopting and adapting these technologies during SAR missions can inform future design and improve outcomes for SAR teams. We interviewed SAR volunteers to contextualize their experiences with technology and triangulated with additional questionnaire data. We discuss how technology use in SAR requires an intersection of expert knowledge and creative problem solving to overcome challenges in the field. This research contributes an understanding of the constraints on and implications for future SAR technologies and SAR operators’ creativity in emergent situations. 

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2. Flying SD Cards, Aerial Repeaters, \& Homebrew Apps: Emergent Use of Technologies for Collaboration in Search and Rescue

   LaLone, Nicolas ; Van Natta, Jared ; Cormier, Michelle V ; Fraune, Marlena R ; Hamilton, Bill ; Dugas, Phoebe O ; Alharthi, Sultan A ; Zemedie, Mahlet ( May 2023 , Proceedings of the International ISCRAM Conference)

   Search and rescue (SAR) teams are the first to respond to emergencies. This could include finding lost hikers, shoring buildings, or aiding people post-disaster. SAR combines orienteering, engineering, field medicine, and communication. Technology use in SAR has been changing with the proliferation of information communication technologies; so, we ask, how are established and emerging technologies used in SAR? Understanding how responders are adopting and adapting these technologies during SAR missions can inform future design and improve outcomes for SAR teams. We interviewed SAR volunteers to contextualize their experiences with technology and triangulated with additional questionnaire data. We discuss how technology use in SAR requires an intersection of expert knowledge and creative problem solving to overcome challenges in the field. 

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3. Collaborative multi-robot multi-human teams in search and rescue.

   Williams, R. ( April 2020 , Proceedings of the International ISCRAM Conference)

   Robots such as unmanned aerial vehicles (UAVs) deployed for search and rescue (SAR) can explore areas where human searchers cannot easily go and gather information on scales that can transform SAR strategy. Multi-UAV teams therefore have the potential to transform SAR by augmenting the capabilities of human teams and providing information that would otherwise be inaccessible. Our research aims to develop new theory and technologies for field deploying autonomous UAVs and managing multi-UAV teams working in concert with multi-human teams for SAR. Specifically, in this paper we summarize our work in progress towards these goals, including: (1) a multi-UAV search path planner that adapts to human behavior; (2) an in-field distributed computing prototype that supports multi-UAV computation and communication; (3) behavioral modeling that fields spatially localized predictions of lost person location; and (4) an interface between human searchers and UAVs that facilitates human-UAV interaction over a wide range of autonomy. 

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4. A Vision of Augmented Reality for Urban Search and Rescue

   https://doi.org/10.1145/3363384.3363466  

   LaLone, Nicolas ; A. Alharthi, Sultan ; Toups Dugas, Phoebe O. ( November 2019 , Proceedings of the Halfway to the Future Symposium 2019)

   Search and rescue (SAR) operations are often nearly computer-technology-free due to the fragility and connectivity needs of current information communication technology (ICT). In this design fiction, we envision a world where SAR uses augmented reality (AR) and the surplus labor of volunteers during crisis response efforts. Unmanned aerial vehicles, crowdsourced mapping platforms, and concepts from video game mapping technologies can all be mixed to keep SAR operations complexity-free while incorporating ICTs. Our scenario describes a near-future SAR operation with currently available technology being assembled and deployed without issue. After our scenario, we discuss socio-technical barriers for technology use like technical fragility and overwhelming complexity. We also discuss how to work around those barriers and how to use video games as a testbed for SAR technology. We hope to inspire more resilient ICT design that is accessible without training. 

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5. Smart Glasses for Supporting Distributed Care Work: Systematic Review

   https://doi.org/10.2196/44161  

   Zhang, Zhan ; Bai, Enze ; Joy, Karen ; Ghelaa, Partth Naressh ; Adelgais, Kathleen ; Ozkaynak, Mustafa ( January 2023 , JMIR Medical Informatics)

   Background Over the past 2 decades, various desktop and mobile telemedicine systems have been developed to support communication and care coordination among distributed medical teams. However, in the hands-busy care environment, such technologies could become cumbersome because they require medical professionals to manually operate them. Smart glasses have been gaining momentum because of their advantages in enabling hands-free operation and see-what-I-see video-based consultation. Previous research has tested this novel technology in different health care settings. Objective The aim of this study was to review how smart glasses were designed, used, and evaluated as a telemedicine tool to support distributed care coordination and communication, as well as highlight the potential benefits and limitations regarding medical professionals’ use of smart glasses in practice. Methods We conducted a literature search in 6 databases that cover research within both health care and computer science domains. We used the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) methodology to review articles. A total of 5865 articles were retrieved and screened by 3 researchers, with 21 (0.36%) articles included for in-depth analysis. Results All of the reviewed articles (21/21, 100%) used off-the-shelf smart glass device and videoconferencing software, which had a high level of technology readiness for real-world use and deployment in care settings. The common system features used and evaluated in these studies included video and audio streaming, annotation, augmented reality, and hands-free interactions. These studies focused on evaluating the technical feasibility, effectiveness, and user experience of smart glasses. Although the smart glass technology has demonstrated numerous benefits and high levels of user acceptance, the reviewed studies noted a variety of barriers to successful adoption of this novel technology in actual care settings, including technical limitations, human factors and ergonomics, privacy and security issues, and organizational challenges. Conclusions User-centered system design, improved hardware performance, and software reliability are needed to realize the potential of smart glasses. More research is needed to examine and evaluate medical professionals’ needs, preferences, and perceptions, as well as elucidate how smart glasses affect the clinical workflow in complex care environments. Our findings inform the design, implementation, and evaluation of smart glasses that will improve organizational and patient outcomes. 

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