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1. Meta-network Framework for Analyzing Disaster Management System-of-Systems

   Fan, Chao; Zhang, Cheng; Mostafavi, Ali (January 2018, IEEE System of Systems Engineering Conference (SoSE))

   The objective of this paper is to establish a meta-network framework to identify constituents in Disaster Management System-of-Systems (DM-SoS), conceptualize relationships and interactions among the constituents, and formulate quantitative measurements of DM-SoS performance for achieving network-centric operation and coordination in the context of disasters. With increasingly serious impacts of disasters on interdependent and heterogeneous systems, the improvement of effective and integrative disaster response and coordination is needed. However, some existing literature only proposed some frameworks for modeling disaster management systems, while another stream of studies only examined the social network analysis (SNA) for understanding the interactions between stakeholders. Thus, quantitative and integrative measurements in DM-SoS are missing. To address this knowledge gap, the authors created and discussed a metanetwork framework integrating various types of entities and relationships for quantitatively analyzing the performance of DM-SoS. First, this framework defined nodes and links in meta-metrics for abstracting constituents in disaster management. Second, some performance indicators (e.g., effectiveness, the extent of information sharing, and the extent of self-organization) were created to show the capacities of disaster systems, and the potential perturbations in disaster environment were translated by network theory. Finally, we examined the impacts of perturbations on the indicators and assessed the performance by integrating overall indicators. This study highlighted the significance of quantitative measurements and an integrative perspective on analyzing efficiency and effectiveness of disaster response and coordination. The study also provides implications for making comparisons of different response strategies for decision makers to achieve resilient disaster management systems. 

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2. Designing Future Disaster Response Team Wearables from a Grounding in Practice

   https://doi.org/10.1145/3183654.3183662  

   Alharthi, Sultan A; Sharma, Hitesh Nidhi; Sunka, Sachin; Dolgov, Igor; Toups_Dugas, Phoebe O (April 2018, ACM)

   Wearable computers are poised to impact disaster response, so there is a need to determine the best interfaces to support situation awareness, decision support, and communication. We present a disaster response wearable design created for a mixed reality live-action role playing design competition, the Icehouse Challenge. The challenge, an independent event in which the authors were competitors, offers a simulation game environment in which teams compete to test wearable designs. In this game, players move through a simulated disaster space that requires team coordination and physical exertion to mitigate virtual hazards and stabilize virtual victims. Our design was grounded in disaster response and team coordination practice. We present our design process to develop wearable computer interfaces that integrate physiological and virtual environmental sensor data and display actionable information through a head-mounted display. We reflect on our observations from the live game, discuss challenges, opportunities, and design implications for future disaster response wearables to support collaboration. 

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3. Functional Models of Work to Examine Human-Robot Coordination in Disaster Response

   https://doi.org/10.1177/10711813241276478  

   Hargis, Salvatore; IJtsma, Martijn (October 2024, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   This paper presents a foundational framework for functional modeling of human-robot joint activity in dynamic and unstructured environments. Representing a model of work functions as a network allows for scalable analysis of functional dependencies that create coordination overhead in the human-robot system. Centrality of nodes and cycles in the network can reveal potential patterns of joint activity that point to alternate strategies for human-robot coordination. Analysis of these network structures can provide insight into how a human-robot system may synchronize their activity while managing coordination overhead. We illustrate the use of the framework with a model of collaborative navigation in disaster response, where re-evaluating goals as more information about the environment is identified as a key part of coordination. The modeling capabilities can aid in understanding the effects of coordination strategies and teaming configurations and inform the design of automation capabilities to better support collaborative capabilities. 

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4. Criminal network security: An agent‐based approach to evaluating network resilience*

   https://doi.org/10.1111/1745-9125.12203  

   Duxbury, Scott W.; Haynie, Dana L. (February 2019, Criminology)

   Abstract Criminal networks are frequently at risk of disruption through arrest and interorganizational violence. Difficulties in designing empirical studies of criminal network recovery, however, have problematized research into network responses to disruption. In this study, we evaluate criminal network resilience by examining network recovery from disruption in an array of different criminal networks and across different disruption strategies. We use an agent‐based model to evaluate how criminal networks recover from disruption. Our results reveal the vulnerabilities and time to recovery of numerous criminal organizations, and through them, we identify which disruption strategies are most effective at damaging various criminal networks. 

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5. Interorganizational Social Network Analysis Survey Instrument:Building State Voluntary Organizations Active in Disaster (VOAD) Capacities to Protect Children in Emergencies: An Evaluation Research Project

   https://doi.org/10.17603/ds2-1y50-6519  

   Mathews, Mason; Vickery, Jamie; Green, Luther; Koenig, Aren; Drever, Anita; Wu, Haorui; Peek, Lori (January 2024, Designsafe-CI)

   A primary objective of this larger evaluation project was to develop a baseline understanding of the existing connections across Voluntary Organizations Active in Disaster (VOAD) member and partner organizations in Arkansas and Nebraska, including identification of opportunities for additional or more extensive collaboration. To address this objective, the evaluation team constructed an interorganizational social network analysis (SNA) survey to measure the degree to which VOAD member organizations in Arkansas and Nebraska: (1) engage in various levels of collaboration, (2) contact one another, (3) exchange essential resources, and (4) perceive the benefits and challenges associated with collaboration. In addition to measuring VOAD collaboration and exchanges, we assessed the extent to which child-serving organizations were represented within Arkansas and Nebraska VOAD networks and whether they were sought after for child-focused resources. To do this, we developed two survey instruments that were identical other than one survey included VOAD, emergency management, and child-serving organizations in Nebraska, and the other included such organizations in Arkansas. We also updated the introductory text in each survey to represent the names of the focal states and organizational partners. In total, 34 participants from Arkansas VOAD and their partners and 43 participants from Nebraska VOAD and their partners completed the SNA survey. The intended audience for this survey instrument includes researchers as well as practitioners and policy makers interested in the use of social network analysis in disaster research. As indicated by the highlighted text in the instruments, future users of this survey will need to update organizational names in the text and network question rosters. Please see the highlighted instructions in the survey for further guidance on replicating the instrument.Between 2018 and 2020, the Natural Hazards Center at the University of Colorado Boulder conducted an evaluation entitled: Building State Voluntary Organizations Active in Disaster (VOADs) Capacities to Protect Children in Emergencies. This project was designed to assess the capacity of state-level VOADs to address children’s needs before, during, and after disasters. This project involved multi-method research in the focal states of Arkansas and Nebraska and in collaboration with members of VOADs, emergency management, Save the Children, and other child-serving organizations in both states. The evaluation team conducted participatory engagement exercises, survey research, secondary data analysis and GIS mapping, and an interorganizational network analysis survey. This project includes research instruments and the final reports produced as part of this project. The envisioned audience for these materials includes researchers, emergency managers, and professionals who work for child-serving organizations. 

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