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1. Inclusive Emergency Alerts: A Cloud- Based Haptic and Visual Notification System for the Deaf and Hard of Hearing

   https://doi.org/10.59297/xgzym310  

   Kshirsagar, Utkarsha; Oh, Tae; Tomaszewski, Brian; Behm, Gary (May 2025, Proceedings of the International ISCRAM Conference)

   Broadcasting emergency notifications during disasters is crucial, particularly in Monroe County, NY, which is home to one of the largest per capita Deaf and Hard of Hearing (DHH) populations in the United States. However, text alerts may not effectively reach DHH individuals who are in a state of reduced responsiveness, like sleep, placing them at great risk. This paper presents cloud-based platform designed to deliver emergency alerts with visual and haptic feedback. A prototype utilizing an off-the-shelf IoT device demonstrates how alerts can be received via vibration and light-based feedback. The platform aims to be accessible to DHH community, providing its own solutions to maintain haptic devices and receive critical alerts in real time. This work contributes to the literature on IT solutions for bridging the communication gap between text-based alerts and intuitive visual/haptic communication, enhancing emergency response readiness for the DHH community, ultimately improving safety and potentially saving lives. 

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2. NUMERICAL SIMULATION OF TSUNAMI IMPACT FROM THE 1/15/22 ERUPTION OF THE HUNGA TONGA - HUNGA HA’APAI VOLCANO

   https://doi.org/10.9753/icce.v37.management.85  

   Grilli, Stephan; Mohammadpour, Maryam; Grilli, Annette; Zhang, Cheng; Tappin, Dave; Novellino, Alessandro; Watt, Sebastien (September 2023, Coastal Engineering Proceedings)

   Tsunamis from volcanic ‘explosive’ eruptions are rare, with the last catastrophic event being Krakatau in 1883 (Verbeek, 1885), during which, tsunamis were generated in the far-field by pressure shock-waves and in the nearfield of the volcano, in the Sunda Straits, by several potential geological mechanisms including pyroclastic flows, ash column, and/or caldera collapse. On 1/22/55, at about 4:15 UTC, a one in 1,000 year eruption of the Hunga Tonga-Hunga Ha’a-pai Volcano (HTHHV), that had started on12/20/21, reached its paroxysm with a series of large underwater explosions, releasing enormous energy (4-18 Mt of TNT), and ejecting a large ash plume 58 km into the stratosphere. We simulate both the near- and far-field tsunami generation from the eruption, but in this paper we focus on analyzing and validating the near-field impact against field data. 

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3. Associations among political voting preference, high-risk health status, and preventative behaviors for COVID-19

   https://doi.org/10.1186/s12889-022-12633-y  

   Porteny, Thalia; Corlin, Laura; Allen, Jennifer D.; Monahan, Kyle; Acevedo, Andrea; Stopka, Thomas J.; Levine, Peter; Ladin, Keren (December 2022, BMC Public Health)

   Abstract Background We investigate the relationships among political preferences, risk for COVID-19 complications, and complying with preventative behaviors, such as social distancing, quarantine, and vaccination, as they remain incompletely understood. Since those with underlying health conditions have the highest mortality risk, prevention strategies targeting them and their caretakers effectively can save lives. Understanding caretakers’ adherence is also crucial as their behavior affects the probability of transmission and quality of care, but is understudied. Examining the degree to which adherence to prevention measures within these populations is affected by their health status vs. voting preference, a key predictor of preventative behavior in the U. S, is imperative to improve targeted public health messaging. Knowledge of these associations could inform targeted COVID-19 campaigns to improve adherence for those at risk for severe consequences. Methods We conducted a nationally-representative online survey of U.S. adults between May–June 2020 assessing: 1) attempts to socially-distance; 2) willingness/ability to self-quarantine; and 3) intention of COVID-19 vaccination. We estimated the relationships between 1) political preferences 2) underlying health status, and 3) being a caretaker to someone with high-risk conditions and each dependent variable. Sensitivity analyses examined the associations between political preference and dependent variables among participants with high-risk conditions and/or obesity. Results Among 908 participants, 75.2% engaged in social-distancing, 94.4% were willing/able to self-quarantine, and 60.1% intended to get vaccinated. Compared to participants intending to vote for Biden, participants who intended to vote for Trump were significantly less likely to have tried to socially-distance, self-quarantine, or intend to be vaccinated. We observed the same trends in analyses restricted to participants with underlying health conditions and their caretakers Underlying health status was independently associated with social distancing among individuals with obesity and another high-risk condition, but not other outcomes. Conclusion Engagement in preventative behavior is associated with political voting preference and not individual risk of severe COVID-19 or being a caretaker of a high-risk individual. Community based strategies and public health messaging should be tailored to individuals based on political preferences especially for those with obesity and other high-risk conditions. Efforts must be accompanied by broader public policy. 

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4. The global seismographic network reveals atmospherically coupled normal modes excited by the 2022 Hunga Tonga eruption

   https://doi.org/10.1093/gji/ggac284  

   Ringler, A T; Anthony, R E; Aster, R C; Taira, T; Shiro, B R; Wilson, D C; De Angelis, S; Ebeling, C; Haney, M; Matoza, R S; et al (November 2022, Geophysical Journal International)

   SUMMARY The eruption of the submarine Hunga Tonga-Hunga Haʻapai (Hunga Tonga) volcano on 15 January 2022, was one of the largest volcanic explosions recorded by modern geophysical instrumentation. The eruption was notable for the broad range of atmospheric wave phenomena it generated and for their unusual coupling with the oceans and solid Earth. The event was recorded worldwide across the Global Seismographic Network (GSN) by seismometers, microbarographs and infrasound sensors. The broad-band instrumentation in the GSN allows us to make high fidelity observations of spheroidal solid Earth normal modes from this event at frequencies near 3.7 and 4.4 mHz. Similar normal mode excitations were reported following the 1991 Pinatubo (Volcanic Explosivity Index of 6) eruption and were predicted, by theory, to arise from the excitation of mesosphere-scale acoustic modes of the atmosphere coupling with the solid Earth. Here, we compare observations for the Hunga Tonga and Pinatubo eruptions and find that both strongly excited the solid Earth normal mode 0S29 (3.72 mHz). However, the mean modal amplitude was roughly 11 times larger for the 2022 Hunga Tonga eruption. Estimates of attenuation (Q) for 0S29 across the GSN from temporal modal decay give Q = 332 ± 101, which is higher than estimates of Q for this mode using earthquake data (Q = 186.9 ± 5). Two microbarographs located at regional distances (<1000 km) to the volcano provide direct observations of the fundamental acoustic mode of the atmosphere. These pressure oscillations, first observed approximately 40 min after the onset of the eruption, are in phase with the seismic Rayleigh wave excitation and are recorded only by microbarographs in proximity (<1500 km) to the eruption. We infer that excitation of fundamental atmospheric modes occurs within a limited area close to the site of the eruption, where they excite select solid Earth fundamental spheroidal modes of similar frequencies that are globally recorded and have a higher apparent Q due to the extended duration of atmospheric oscillations. 

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5. Data Work and Decision Making in Emergency Medical Services: A Distributed Cognition Perspective

   https://doi.org/10.1145/3479500  

   Zhang, Zhan; Joy, Karen; Upadhyayula, Pradeepti; Ozkaynak, Mustafa; Harris, Richard; Adelgais, Kathleen (October 2021, Proceedings of the ACM on Human-Computer Interaction)

   Emergency medical services (EMS) teams are first responders providing urgent medical care to severely ill or injured patients in the field. Despite their criticality, EMS work is one of the very few medical domains with limited technical support. This paper describes a study conducted to examine technology opportunities for supporting EMS data work and decision-making. We transcribed and analyzed 25 simulation videos. Using the distributed cognition framework, we examined EMS teams' work practices that support information acquisition and sharing. Our results showed that EMS teams leveraged various mechanisms (e.g., verbal communication and external cognitive aids) to distribute cognitive labor in managing, collecting, and using patient data. However, we observed a set of prominent challenges in EMS data work, including lack of detailed documentation in real time, situation recall issues, situation awareness problems, and challenges in decision making and communication. Based on the results, we discuss implications for technology opportunities to support rapid information acquisition, integration, and sharing in time-critical, high-risk medical settings. 

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