Trends in Civic Engagement Disaster Safety Education Research

[Full title: Trends in Civic Engagement Disaster Safety Education Research: Systematic Literature Review and Keyword Network Analysis]

sustainability Review Trends in Civic Engagement Disaster Safety Education Research: Systematic Literature Review and Keyword Network Analysis Hyun Jeong Seo , Minjie Son and Ah Jeong Hong * Citation: Seo, H.J.; Son, M.; Hong, A.J. Trends in Civic Engagement Disaster Safety Education Research: Systematic Literature Review and Keyword Network Analysis Sustainability 2021 , 13 , 2505. https://doi.org/10.3390/ su 13052505 Academic Editor: Ashraf Dewan Received: 23 January 2021 Accepted: 20 February 2021 Published: 26 February 2021 Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations Copyright: © 2021 by the authors Licensee MDPI, Basel, Switzerland This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/) Department of Education, Chung-Ang University, Seoul 06974, Korea; sincedeni@naver.com (H.J.S.); ellenmj@cau.ac.kr (M.S.) * Correspondence: ah 454@cau.ac.kr; Tel.: +82-2-820-5865 Abstract: Background: Education plays the most important role in establishing a disaster management system by creating a safety culture in the community and by engaging its members. This study explored the trends in research on disaster safety education based on the community from the perspective of lifelong education. Methods: We undertook a systematic literature review and keyword network analysis. The main search keywords were “community”, “disaster”, “safety”, and “education”. The subjects of education were adults, including disaster-vulnerable people, such as elderly and disabled people. A total of 185 articles and papers were identified and then narrowed down to 56. Results: Research related to disaster safety education has developed in a direction that reflects the characteristics of disasters that occur in the region. Currently, disaster safety education is being studied in various fields, including the humanities, social sciences, and engineering, focusing on disaster prevention. The main research methods in the reviewed literature were qualitative, especially case studies that applied narrative, storytelling, and risk scenario construction. Conclusion: The study provides a framework for the in-depth analysis of disaster risk management and risk level of communities, and lays the academic foundation for it Keywords: civic engagement; disaster safety education; community; disaster management; lifelong learning 1. Introduction Since the Fourth Industrial Revolution, modern society has been suffering from the worsening effects of social disasters, such as fires, explosions, and collapsing structures, as well as natural disasters, such as typhoons, heavy rains, and heat waves that result from rapid industrialization, urbanization, and population concentration [ 1 , 2 ]. In recent years, natural and social disasters have been occurring in combination, making disaster management difficult in terms of prevention, preparation, response, and recovery. The risk of multiple disasters is increasing further because secondary damage can occur For the mitigation of the effects of disasters, it is more efficient to minimize the occurrence of damage and devise continuous management measures by preparing systematic initial responses based on pre-disaster prevention and countermeasures, rather than followup management, such as response or damage recovery [ 3 , 4 ]. According to previous studies, the key factors of continuous emergency management are improving the safety awareness of the people and securing disaster response capabilities by upgrading them [ 2 , 5 – 7 ]. As part of an effective disaster management plan, it is very important to form a locally-based safety community. The locally-based safety community is a group with a practical approach that recognizes disasters as a problem of the whole society and cooperates to solve this problem [ 8 , 9 ]. It is a civic group that conducts safety activities at the local level. It is also an organization that has the ability to respond to disasters in the area and to aid in recovery in the event of a disaster. Furthermore, it functions to improve the disaster resilience of the Sustainability 2021 , 13 , 2505. https://doi.org/10.3390/su 13052505 https://www.mdpi.com/journal/sustainability

Sustainability 2021 , 13 , 2505 2 of 18 community. What is most needed to build and operate a locally-based safety community efficiently is the formation of a community safety culture, based on safety awareness, attitudes, and safety behaviors of the residents [ 7 – 9 ]. Education is the most important, in order to plays a role in establishing a disaster management system by creating a safety culture in the local community and by engaging its members In this study, a systematic literature review was used to analyze the research trends of civic engagement disaster safety education conducted both in Korea and internationally. We aimed to identify the research trends of the contents, methods, research fields, and subjects of education, targeting research related to disaster safety education, and to establish the basic concepts of research on civic engagement disaster safety education. Also, by means of network analysis, we explored the relationship between keywords and research contents that are important in the relevant field. Through this process, we attempted to analyze the trends and scope of the research field of community-based disaster safety education, establish basic concepts, overcome the fragmentation of the research, and lay the academic foundation for research on disaster safety education in Korea 2. Theoretical Background 2.1. Definition and Characteristics of Civic Engagement Disaster Safety Education Disaster safety education is a form of lifelong education centered on the community [ 2 , 6 – 10 ]. Preston et al. [ 10 ] conducted a study considering education to prepare for emergencies as a form of lifelong learning. They emphasized the importance of civic engagement in carrying out safety and security learning in everyday life. They also suggested continuous education, campaigns, and active community learning to improve residents’ safety awareness, and suggested ways to induce people’s participation through discourse, learning about urban disasters, along with learning about natural disasters. A study by Thayaparan et al. [ 11 ] argued that disaster safety education can be activated through informal, nonformal, and formal learning alike because organized education has limited knowledge about disaster resilience and disaster management. It was explained that education to reinforce the ability to respond to special situations such as disasters should reflect the characteristics of each region and needs to be learned throughout life, which is similar to the concept of lifelong learning. In order to ensure the safety of the community from the risk of disaster, it is most important for the locally-based safety community and its members to recognize it as a common problem and to induce civic engagement and cooperation to solve the problem A study by Johnston [ 12 ] proposed communication between residents as an important factor for improving the effectiveness of community-based disaster safety education. It is also argued that the effects of disasters could be overcome by means of civic engagement, such as residents taking an interest in local disasters, trust between residents, and a sense of belonging to the community. Civic engagement means that people get together to form a single community to respond to various risks [ 13 ]. In addition, civic engagement is based on people’s dedication to improving disaster response and resilience to overcome and prevent disasters in the community. Civic engagement can be defined as a concept of an ecosystem to identify disasters that occur frequently in communities, recognize risks, and facilitate interaction, participation, and communication among people within each community [ 12 – 16 ]. The formation of a safety community by community members within a region plays a very important role in explaining how resilience is structured in the event of a disaster, and in inducing the continued participation of residents. Civic engagement can function as this safety community As for disaster safety education, the method or subject of education was generally determined according to the type of disaster. Research on disaster safety education was also mainly conducted to verify the effectiveness and efficiency of the education as a result of its subject or method. There is an insufficient number of comprehensive studies. There are few studies on adults who can play an active role in civic safety committees in communities There have also not been many studies involving elderly and disabled people, who are

Sustainability 2021 , 13 , 2505 3 of 18 more vulnerable to disasters [ 17 – 20 ]. In addition, the aspect of “civic engagement” in community-based disaster safety education is a very important variable in determining whether civic safety committees can successfully prepare for and respond to disasters. There is a limitation in that there is insufficient research on the subject Civic engagement disaster safety education can be defined as education that reflects the characteristics of the region, including residents’ experiences of disaster and the disaster history of the region. A community is a physical and cultural space that an individual encounters for the first time, and residents need to learn how to accurately understand and identify the dangers and disasters in the area and how to resolve the disaster [ 2 , 5 – 7 , 15 ]. Civic engagement disaster safety education can also function positively in building a safety culture in the community [ 10 , 12 – 16 ]. This education plays a role in organizing and materializing programs so that citizens can actively participate and commit themselves to the overall disaster management process, including prevention, response, preparation, and recovery for disasters. Janse and Konijnendijk [ 15 ] stated that disaster resilience can be secured through the knowledge of how to respond to disasters, reflecting the characteristics of each region and the safety awareness of residents, securing sustainable disaster response and resilience, communication, and information exchange 2.2. Research on Civic Engagement Disaster Safety Education Disaster-safety education based on communities has not been studied for a long time. The time point of research may differ for each country, but generally, the starting point is after the 2000 s [ 6 – 11 ]. Since the Sewol ferry accident in 2014, studies have been conducted on educational content, subjects, methods, and educational effects in Korea. Most of the Korean studies on disaster safety education based on the community were mainly focused on disaster-related business workers and safety volunteers made up of local residents, with the theme of analyzing the effects of improving safety awareness [ 18 – 25 ] Park [ 24 ] demonstrated that disaster safety education significantly improved the safety awareness and social capital accumulation of people, and that the role of residents in disaster management is very important. Based on these studies, we suspect that the improvement of safety awareness by means of disaster safety education improves local disaster response capabilities and can contribute to civic engagement and the establishment of a safety community. Table 1 shows the major preceding studies on civic engagement disaster safety education Table 1. Main previous studies on civic engagement disaster safety education Author(s) (year) Subject Education Paradigm Main Research Contents Simpson (2002) [ 26 ] Earthquakes Practical training · Using a simulation program as a learning tool · Residents were studied as education targets Suwa et al. (2008) [ 27 ] Natural disasters Action Learning · Mention the necessity of disaster safety education reflecting regional characteristics Bosher and Dainty (2011) [ 13 ] Natural disasters Lecture · Mention the need for disaster prevention education based on local communities to improve disaster resilience in communities Katada et al. (2013) [ 28 ] Large-scale flooding Lecture/Practice · Using disaster scenario analysis techniques · Applying the case of the community Dahl and Millora (2016) [ 2 ] Natural disasters Lecture · Mention the need to expand the field of lifelong education to disaster safety education Lee (2016) [ 29 ] Natural disasters Lecture · The scope of people vulnerable to disaster has been extended to multicultural families Son (2018) [ 30 ] Complex disasters (Fire and natural disasters) Lecture/Practice · Consideration of complex disasters and secondary disasters · Practical training, including disabled people as learners

Sustainability 2021 , 13 , 2505 4 of 18 Table 1. Cont Author(s) (year) Subject Education Paradigm Main Research Contents Cooper et al. (2020) [ 31 ] Complex disasters Lecture/Practice · Lecture/practice education using web-based simulation · Research on sustainable education plans to prepare for disasters through web-based interaction 3. Methods The study aimed to identify the trends and major issues of research related to civic engagement disaster safety education. The systematic literature review method was chosen as the most suitable method because it reduces the potential internal bias with a scientific method. This research method defines the search criteria from the start, selects published research data, and provides summary information on the existing literature [ 32 – 35 ]. A systematic literature review consists of four main steps: search process, inclusion and exclusion, data extraction, and synthesis and evaluation; these are summarized [ 35 , 36 ]. “Civic engagement” is a term that encompasses concepts such as the participation of residents, dedication, and commitment as key concepts in this study. The researchers analyzed the keyword frequency and network of the extracted articles, and also used the word cloud technique. The word cloud is one of the representative text mining techniques used in big data analysis, and is characterized by intuitively showing the frequency of the corresponding keyword in the text by determining the size of the character according to the frequency [ 36 – 40 ]. 3.1. Data Collection The search period for literature was from September 24 to October 23, 2020. The languages used for the search were English and Korean. The following Internet databases were searched: Korean Studies Information Service System (KISS), Korean Education and Academic Information Service ( http://www.riss.kr accessed on 10 February 2020), National Digital Science Leaders (NDSL), Database Periodical Information Academic (DBpia), Google Scholar, Science Direct, Web of Science, Springer, Scopus, and SAGE. We systematically analyzed and reviewed the searched literature data on previous studies related to research trends, research fields, community commitment, and educational effects Among the searched articles, we excluded literature that was not regularly reviewed, such as academic conference material and symposium materials. The reason for excluding them is that papers published in academic journals go through strict screening procedures, so we judged that their research results were more objective [ 38 , 39 ]. In order to collect literature suitable for research purposes, we set up the topic keywords, as follows, and used them for our search: “disaster”, “education”, “safety”, “community”, and “civic engagement” “Disaster” included natural disasters, such as earthquakes, floods, and typhoons, and social disasters, such as fires, collapses, and explosions. “Education” included various phrases with similar meanings, such as training, teaching, learning, and drilling. “Safety” was used in combination with key search words; specifically, we did a search by including “safety education”, “disaster safety education”, “community-based safety education”, and “safety training” in the search keywords. In addition, “community” and “civic engagement” were also combined and used for researching the searched documents, for example, “safety community”, “civic engagement community”, and “community-based disaster education” We did not place restrictions on the year of publication of the literature. This is because disaster safety education for residents based on civic engagement is a field where research began in the 2000 s, so the amount of literature is very small compared to other fields In the process of collecting literature, we applied the PICO process. This is a method that can structure a search strategy suitable for research goals and is widely used in literature review and meta-analysis [ 39 – 41 ]. First, “Participants” (P) refers to the subjects of the study; “locally-based civic engagement” and “disaster safety education” were set

Sustainability 2021 , 13 , 2505 5 of 18 as the keywords related to community-based disaster safety education. Second, “I” is for “Intervention” in this study; the following criteria were set and searched for this: types of disasters (natural disasters, social disasters), education method (lecture type, training type), and educational content. Next, “C” is for “Comparison”; since we did not conduct a comparative study with education other than disaster safety education, we did not establish a comparative group. Finally, “O” is for “Outcomes”, indicating the results of searching the literature. We selected the literature collected by means of the settings related to the effectiveness and evaluation of disaster safety education In this step, we applied keywords, including “community commitment”, “civic engagement”, “safety community”, and “citizen participation”, to specifically confirm the effectiveness of education. Since civic engagement disaster safety education for a citizen safety committee was the subject of the study, we excluded studies on regular education, such as safety education and vocational education, for various safety managers conducted in elementary and secondary schools 3.2. Selection of Articles for Systematic Literature Review The systematic literature review was carried out in the four stages of “literature search, screening, selection, final extraction”, according to the PRISMA criteria. Figure 1 shows the process of deriving research data by means of a systematic literature review. In the literature selection stage, we searched 185 articles and added 12 studies by searching research reports from governments and companies in addition to papers. After we excluded 42 duplicates or non-original texts, there were 155 papers remaining for selection Sustainability 2021 , 13 , x FOR PEER REVIEW 6 of 20 Figure 1. Flow chart of the process of literature extraction for research . In the process of reviewing the selected literature, we discovered several new papers and added them to our analysis. In order not to omit essential data in this study, we additionally reviewed literature related to community commitment, disaster case studies, and citizen participation [9,10,16,21,41]. The specific reasons the documents were included in the study are as follows. A study by Bankoff [21] presented the importance of experience in preparing for the risk of natural disasters. Through this study, it was suggested that it is necessary to study and teach not only the theoretical characteristics of natural disasters, but also the characteristics of disaster occurrence unique to the community. A study by Goto et al [41] suggested the development of educational methods for residents to participate in education to respond to disaster situations and secure sustainable disaster response capabilities. The study emphasized the importance of residents’ participation and commitment. Three additional studies [9,10,16] suggested the importance of education for securing resilience in the community, and the research of Siriwardena et al [9], in particular, noted that such education should be studied in the field of lifelong education. Finally, 56 articles were selected as research and analysis data in the literature on civic engagement disaster safety education. 3.3. Data Coding for Keyword Network Analysis There were 56 articles finally selected for keyword network analysis. The researchers used R, an open-source software program, for keyword network analysis, and used the Bibliometrix package among the R packages, and applied the package command “cocMatrix()” for matrix concatenation [42]. The keywords presented in the literature data were applied to the analysis as they were, but the final keywords were derived by means of several refinements. Data refinement was performed according to the method published by Kim and Mun [42], and as described in the next paragraph. Singular and plural nouns were unified in the singular form. Keywords that could be classified with similar meanings were unified as representative words that could be used with a comprehensive meaning. The final keyword was derived by means of a cleaning process, such as removing spaces or applying a hyphen (“-”). For example, “disaster” and “disasters” were analyzed as “disaster”, “study” and “studies” as “study”, and “risk” and “risks” as “risk”. “engagement”, “participation”, and “commitment”, which have similar meanings, were integrated into “engagement”. For adjective–noun combinations, Figure 1. Flow chart of the process of literature extraction for research In the screening phase, a total of 105 articles were excluded. Specifically, we excluded 48 articles related to disaster safety education included in the regular curriculum. The regular curriculum includes school safety education, or facility safety education, which are not related to the safety community. Since the subject of the study was disaster safety education, we excluded 24 studies, such as safety education in hospitals and laboratories, emergency education for firefighters, and cardiopulmonary resuscitation education. We conducted a search by limiting the education targets to residents, and disaster-vulnerable people, including disabled people, who were also included as education targets. We excluded education targets composed of only children or medical/safety-related professionals from the analysis because the education was not intended for residents. However, we did not exclude civic safety education where adolescents and younger children participated together

Sustainability 2021 , 13 , 2505 6 of 18 with adults. In this process, 33 articles were excluded. We also excluded 24 studies because they were not about civic engagement or civic participation. After the selection, there were 51 documents remaining In the process of reviewing the selected literature, we discovered several new papers and added them to our analysis. In order not to omit essential data in this study, we additionally reviewed literature related to community commitment, disaster case studies, and citizen participation [ 9 , 10 , 16 , 21 , 41 ]. The specific reasons the documents were included in the study are as follows. A study by Bankoff [ 21 ] presented the importance of experience in preparing for the risk of natural disasters. Through this study, it was suggested that it is necessary to study and teach not only the theoretical characteristics of natural disasters, but also the characteristics of disaster occurrence unique to the community. A study by Goto et al. [ 41 ] suggested the development of educational methods for residents to participate in education to respond to disaster situations and secure sustainable disaster response capabilities. The study emphasized the importance of residents’ participation and commitment. Three additional studies [ 9 , 10 , 16 ] suggested the importance of education for securing resilience in the community, and the research of Siriwardena et al. [ 9 ], in particular, noted that such education should be studied in the field of lifelong education. Finally, 56 articles were selected as research and analysis data in the literature on civic engagement disaster safety education 3.3. Data Coding for Keyword Network Analysis There were 56 articles finally selected for keyword network analysis. The researchers used R, an open-source software program, for keyword network analysis, and used the Bibliometrix package among the R packages, and applied the package command “cocMatrix()” for matrix concatenation [ 42 ]. The keywords presented in the literature data were applied to the analysis as they were, but the final keywords were derived by means of several refinements. Data refinement was performed according to the method published by Kim and Mun [ 42 ], and as described in the next paragraph Singular and plural nouns were unified in the singular form. Keywords that could be classified with similar meanings were unified as representative words that could be used with a comprehensive meaning. The final keyword was derived by means of a cleaning process, such as removing spaces or applying a hyphen (“-”). For example, “disaster” and “disasters” were analyzed as “disaster”, “study” and “studies” as “study”, and “risk” and “risks” as “risk”. “engagement”, “participation”, and “commitment”, which have similar meanings, were integrated into “engagement”. For adjective–noun combinations, such as “community engagement” or “disaster risk reduction”, the researchers used a hyphen (“-“) to mark them as one word, such as “community-engagement” and “disaster-riskreduction”, so that they could be recognized as one keyword. Ultimately, 624 keywords were derived from the refining process For the analysis of the data, the researchers first extracted keywords related to civic engagement and disaster safety, and measured their frequency of occurrence. In the next step, the frequency analysis results were visualized in a word cloud. After that, by means of network analysis, the researchers plotted the relationships between keywords as a network plot, derived the keywords with a frequency of three or more, and analyzed the network structure of the keywords to confirm specific connectivity. The colors of nodes were randomly set in the program 4. Results and Discussion 4.1. Overview of Studies Related to Civic Engagement Disaster Safety Education To understand the quantitative and qualitative trends of the research and to explore the direction of future research, we established a reference frame and analyzed the research data for each characteristic. In line with previous studies on literature reviews, it was useful to identify the publication year of the studies, the ground model and theory, the type of disaster, the subject and background of the study, and the level of analysis [ 38 – 41 ].

Sustainability 2021 , 13 , 2505 7 of 18 We added an analysis on the subject of education and research field to the framework. We tried to confirm the research field in which research related to disaster safety education is currently being conducted. To study the types of disasters that reflect regional geographic characteristics, such as earthquakes, landslides, and typhoons, one must first understand the relationship between related disciplines. In regions such as Japan and Iran, studies related to disaster safety education reflecting regional characteristics as a field of regional lifelong education were being done. Therefore, we judged that there would be academic significance to analyzing research using the corresponding reference frame 4.1.1. Year of Study and Ground Theory/Model By confirming the publication year of the research on disaster safety education based on the community, we confirmed that such research has been published since 2002. In Korea, it has been confirmed that research materials have been published since 2003 We determined that there was little difference in research content between the studies published in the 2000 s and the studies published in the 2010 s. That is, academic discussions in the field of civic engagement disaster safety education have only been conducted since relatively recently In the ground theory/model, there were 21 studies (37.50%) on community-based learning, which was the highest. Most theories and models of disaster safety education and related research were based on qualitative research. Specifically, studies were conducted to reflect the characteristics of the local community, such as community-based experiential learning theory, constructivist learning theory, disaster case studies, the risk scenario error method, storytelling techniques, and indigenous learning [ 2 , 41 , 43 ], probably because disasters have unique characteristics, such as social climate and geographical conditions, in each region; hence, learning about related experiences is important to effectively respond to a disaster. Next, 10 studies (17.86%) were done to evaluate the effectiveness of methods such as educational effect analysis, role acting, education and training, feedback, and game learning theory. In addition, studies were conducted on civic engagement, disaster resilience, civil safety community, and disaster risk reduction (DRR). Figure 2 presents the content Sustainability 2021 , 13 , x FOR PEER REVIEW 8 of 20 Figure 2. Pie chart of the ground theory/model . The researchers found that the field of research on disaster safety education focuses on various case studies. In order for residents to increase the importance of disaster preparedness and safety awareness, it is possible to secure its effectiveness by developing and distributing educational programs reflecting the characteristics of disaster risk in each community. According to a study by Ryan et al. [43], in order to understand the distribution of disaster vulnerabilities in each region based on the community and to establish disaster resilience, it is imperative to conduct case studies on disasters tailored to local characteristics. Various cases of disasters can be built through the experiences of residents or existing geographic data, and a disaster safety education program tailored to the community can be developed by applying risk scenario techniques [44–56]. 4.1.2. Research Field Research on disaster safety education based on communities has been conducted in diverse fields. A total of 22 studies (39.29%) were conducted on disaster prevention, an area where continuous research is being conducted. The second most prevalent topic was education, with 10 cases (17.86%). In addition, there were four in the field of policy studies, and two studies were conducted in the fields of sociology, firefighting, and community sociology. One study was conducted in each of the following research areas: business administration, engineering, urban planning, design, urban social engineering, social science, psychology, arts and sports, safety engineering, safety and health, political sociology, geology, public administration, and occupational medicine. Figure 3 presents the research fields. Active participation and engagement of residents are essential factors for improving the disaster response capacity of the local community and reducing the risk in the event of a disaster. Research on civic engagement disaster safety education is being conducted in various fields, because an interdisciplinary system is needed to induce active participation and engagement by local residents, establish risk-related scenarios based on disaster case studies, and develop and operate educational programs effectively. It has many characteristics of interdisciplinary studies. Figure 2. Pie chart of the ground theory/model.

Sustainability 2021 , 13 , 2505 8 of 18 The researchers found that the field of research on disaster safety education focuses on various case studies. In order for residents to increase the importance of disaster preparedness and safety awareness, it is possible to secure its effectiveness by developing and distributing educational programs reflecting the characteristics of disaster risk in each community. According to a study by Ryan et al. [ 43 ], in order to understand the distribution of disaster vulnerabilities in each region based on the community and to establish disaster resilience, it is imperative to conduct case studies on disasters tailored to local characteristics. Various cases of disasters can be built through the experiences of residents or existing geographic data, and a disaster safety education program tailored to the community can be developed by applying risk scenario techniques [ 44 – 56 ]. 4.1.2. Research Field Research on disaster safety education based on communities has been conducted in diverse fields. A total of 22 studies (39.29%) were conducted on disaster prevention, an area where continuous research is being conducted. The second most prevalent topic was education, with 10 cases (17.86%). In addition, there were four in the field of policy studies, and two studies were conducted in the fields of sociology, firefighting, and community sociology. One study was conducted in each of the following research areas: business administration, engineering, urban planning, design, urban social engineering, social science, psychology, arts and sports, safety engineering, safety and health, political sociology, geology, public administration, and occupational medicine. Figure 3 presents the research fields Sustainability 2021 , 13 , x FOR PEER REVIEW 9 of 20 Figure 3. Pie chart of the research fields . A study by Tuohy et al. [57] suggested that community-based disaster safety education needs to be studied in the field of lifelong education. The purpose of communitybased lifelong education is to satisfy residents’ learning needs, restore communities, and strengthen residents’ abilities to participate independently. Civic engagement disaster safety education meets this purpose. Ryan et al. [43] argued that, given the nature of the disaster, convergence studies in various fields need to be conducted. In order to improve the safety and disaster response capacity of the community, it is necessary to construct a disaster occurrence scenario by reflecting the preand post-disaster situation in the area as a whole [57–62]. Doing so requires academic convergence in the fields of disaster prevention, community sociology, and public administration. Community-based disaster safety education should be conducted by means of interaction rather than by transfer of general knowledge, and a new network should be established by means of civic engagement. Currently, disaster safety education is mainly carried out in the field of education or disaster prevention. However, because of the independent progress in each field, there is a limit to the creation of education and training scenarios, because of a lack of expertise in disaster or education programs. Therefore, it is necessary to conduct trans-disciplinary research that considers both theoretical and practical aspects, such as developing and operating a program for performing education after establishing a disaster scenario based on a specific local situation and geographic factors. 4.1.3. Education Target and Disaster Type The researchers analyzed studies on people, who were divided into general people and disaster-vulnerable groups (e.g., elderly people, disabled people, and foreign workers) and found that, out of the 56 studies, 8 (14.29%) were related to people who are especially vulnerable to disasters. There were seven studies on elderly and disabled people, and one study, published in Korea [63], on multicultural families. In the event of a disaster, elderly people may incur more damage because they might have less physical response ability than younger adults [30,44,62–64]. In addition, when there are language differences, as may be the case with multicultural families or foreign workers, the exposure to risks is relatively high because of an insufficient understanding of the situation. Analysis of domestic and foreign research Figure 3. Pie chart of the research fields Active participation and engagement of residents are essential factors for improving the disaster response capacity of the local community and reducing the risk in the event of a disaster. Research on civic engagement disaster safety education is being conducted in various fields, because an interdisciplinary system is needed to induce active participation and engagement by local residents, establish risk-related scenarios based on disaster case studies, and develop and operate educational programs effectively. It has many characteristics of interdisciplinary studies A study by Tuohy et al. [ 57 ] suggested that community-based disaster safety education needs to be studied in the field of lifelong education. The purpose of community-based lifelong education is to satisfy residents’ learning needs, restore communities, and strengthen

Sustainability 2021 , 13 , 2505 9 of 18 residents’ abilities to participate independently. Civic engagement disaster safety education meets this purpose. Ryan et al. [ 43 ] argued that, given the nature of the disaster, convergence studies in various fields need to be conducted. In order to improve the safety and disaster response capacity of the community, it is necessary to construct a disaster occurrence scenario by reflecting the preand post-disaster situation in the area as a whole [ 57 – 62 ]. Doing so requires academic convergence in the fields of disaster prevention, community sociology, and public administration. Community-based disaster safety education should be conducted by means of interaction rather than by transfer of general knowledge, and a new network should be established by means of civic engagement Currently, disaster safety education is mainly carried out in the field of education or disaster prevention. However, because of the independent progress in each field, there is a limit to the creation of education and training scenarios, because of a lack of expertise in disaster or education programs. Therefore, it is necessary to conduct trans-disciplinary research that considers both theoretical and practical aspects, such as developing and operating a program for performing education after establishing a disaster scenario based on a specific local situation and geographic factors 4.1.3. Education Target and Disaster Type The researchers analyzed studies on people, who were divided into general people and disaster-vulnerable groups (e.g., elderly people, disabled people, and foreign workers) and found that, out of the 56 studies, 8 (14.29%) were related to people who are especially vulnerable to disasters. There were seven studies on elderly and disabled people, and one study, published in Korea [ 63 ], on multicultural families. In the event of a disaster, elderly people may incur more damage because they might have less physical response ability than younger adults [ 30 , 44 , 62 – 64 ]. In addition, when there are language differences, as may be the case with multicultural families or foreign workers, the exposure to risks is relatively high because of an insufficient understanding of the situation. Analysis of domestic and foreign research trends so far seem to show a lack of research on education for groups of people who are more vulnerable to disasters. Figure 4 shows the details Sustainability 2021 , 13 , x FOR PEER REVIEW 10 of 20 trends so far seem to show a lack of research on education for groups of people who are more vulnerable to disasters. Figure 4 shows the details. Figure 4. Pie chart of the classification of learners. In terms of disaster types, 17 studies (30.36%) related to complex disasters dealt with social and natural disasters comprehensively, 2 studies (3.39%) dealt only with social disasters (specifically, fire), and 36 dealt only with natural disasters (61.02%). A study dealing with complex disasters was about the collapse of buildings and houses because of earthquakes, heavy rains, floods, and typhoons. The studies conducted on natural disasters were mainly case studies and studies on the risk factors that occur mainly in the local community [7,10,54]. The studies dealing with natural disasters as educational content were disaster safety education studies based on disaster cases in the region. However, they had a limitation in that the education program was formed based on the characteristics of general disasters, not education reflecting the situation of each region. Figure 5 shows the classification of the types of disasters. ( a ) ( b ) Figure 5. Pie chart of the types of disaster ; ( a ) the proportion of total disasters in the curriculum; ( b ) the detailed composition of natural disasters. In the studies of social disasters, education contents were mainly conducted on how to train for the initial response and evacuation in situations such as fires, explosions, and collapse [48,64]. In these studies, mixed-method research was applied to develop education programs to increase their effectiveness. Quantitative research methods were applied to verify the effectiveness of the developed educational program, but qualitative research methods, such as case studies and narration, were applied at the stage of developing the Figure 4. Pie chart of the classification of learners In terms of disaster types, 17 studies (30.36%) related to complex disasters dealt with social and natural disasters comprehensively, 2 studies (3.39%) dealt only with social disasters (specifically, fire), and 36 dealt only with natural disasters (61.02%). A study dealing with complex disasters was about the collapse of buildings and houses because of earthquakes, heavy rains, floods, and typhoons. The studies conducted on natural disasters were mainly case studies and studies on the risk factors that occur mainly in the local

Sustainability 2021 , 13 , 2505 10 of 18 community [ 7 , 10 , 54 ]. The studies dealing with natural disasters as educational content were disaster safety education studies based on disaster cases in the region. However, they had a limitation in that the education program was formed based on the characteristics of general disasters, not education reflecting the situation of each region. Figure 5 shows the classification of the types of disasters Sustainability 2021 , 13 , x FOR PEER REVIEW 10 of 20 trends so far seem to show a lack of research on education for groups of people who are more vulnerable to disasters. Figure 4 shows the details. Figure 4. Pie chart of the classification of learners. In terms of disaster types, 17 studies (30.36%) related to complex disasters dealt with social and natural disasters comprehensively, 2 studies (3.39%) dealt only with social disasters (specifically, fire), and 36 dealt only with natural disasters (61.02%). A study dealing with complex disasters was about the collapse of buildings and houses because of earthquakes, heavy rains, floods, and typhoons. The studies conducted on natural disasters were mainly case studies and studies on the risk factors that occur mainly in the local community [7,10,54]. The studies dealing with natural disasters as educational content were disaster safety education studies based on disaster cases in the region. However, they had a limitation in that the education program was formed based on the characteristics of general disasters, not education reflecting the situation of each region. Figure 5 shows the classification of the types of disasters. ( a ) ( b ) Figure 5. Pie chart of the types of disaster ; ( a ) the proportion of total disasters in the curriculum; ( b ) the detailed composition of natural disasters. In the studies of social disasters, education contents were mainly conducted on how to train for the initial response and evacuation in situations such as fires, explosions, and collapse [48,64]. In these studies, mixed-method research was applied to develop education programs to increase their effectiveness. Quantitative research methods were applied to verify the effectiveness of the developed educational program, but qualitative research methods, such as case studies and narration, were applied at the stage of developing the Figure 5. Pie chart of the types of disaster; ( a ) the proportion of total disasters in the curriculum; ( b ) the detailed composition of natural disasters In the studies of social disasters, education contents were mainly conducted on how to train for the initial response and evacuation in situations such as fires, explosions, and collapse [ 48 , 64 ]. In these studies, mixed-method research was applied to develop education programs to increase their effectiveness. Quantitative research methods were applied to verify the effectiveness of the developed educational program, but qualitative research methods, such as case studies and narration, were applied at the stage of developing the educational programs [ 64 – 75 ]. A study by Steen-Hansen et al. [ 64 ] conducted investigations and studies on fires in the country to establish cases of the cause and danger. The established cases were applied as a database to an educational program on effective disaster response and management It is necessary to analyze cases of each disaster in order to educate about natural and social disasters. To analyze the case of a disaster, qualitative research methods should be applied, such as storytelling, narration, and ethnographic research. Residents’ experiences of disasters in each region would be the most valuable database for disaster safety education Table 2 presents the results of analyzing the literature data Table 2. Systematic literature review analysis results Author (s) Ground Theory/Model Disaster Type Research Areas Education Target Social Natural General People Vulnerable People 1 Dahl and Millora (2016) [ 2 ] University–local government cooperation education system • Education • 2 Kitagawa (2016) [ 6 ] Case-based disaster scenario • Education • 3 Salajegheh and Pirmoradi (2013) [ 7 ] Civic engagement/disaster response capability reinforcement • Engineering • 4 Siriwardena et al (2013) [ 9 ] Community-based disaster case study • Business Administration • 5 Preston et al (2015) [ 10 ] Community-based learning • Education • 6 Bosher and Dainty (2011) [ 13 ] Disaster risk management (DRM)/civic engagement • Disaster prevention • 7 McHugh and Klockner (2020) [ 14 ] Storytelling • • Safety engineering • 8 Krasny et al. (2010) [ 16 ] Disaster resilience • Education • 9 Park and Eo (2016) [ 17 ] Social capital theory • • Education • 10 Bankoff (2007) [ 21 ] Community-based disaster case study • Education •

Sustainability 2021 , 13 , 2505 11 of 18 Table 2. Cont Author (s) Ground Theory/Model Disaster Type Research Areas Education Target Social Natural General People Vulnerable People 11 Simpson (2002) [ 26 ] Community-based disaster preparedness program • Disaster prevention • 12 Suwa et al. (2008) [ 27 ] Behavior theory • Psychology • • 13 Katada et al. (2013) [ 28 ] Risk scenario method • Urban Social Engineering • • 14 Lee (2016) [ 29 ] Emergency management theory/multicultural learning • • Policy science • 15 Son (2018) [ 30 ] Disaster education scenario technique • • Social science • 16 Cooper et al. (2020) [ 31 ] Digital knowledge learning theory • Education • 17 Goto et al. (2010) [ 41 ] Community-based disaster education • Disaster prevention • 18 Ryan et al. (2020) [ 43 ] Civic engagement Emergency management • • Disaster prevention • 19 Kim (2018) [ 44 ] Community-based safety network • Arts and sports • • 20 Choi and Choi (2018) [ 45 ] Education practice community theory • Disaster prevention • 21 Annear et al. (2018) [ 46 ] Community disaster resilience/ social safety net • • Disaster prevention • 22 Chou and Wu (2014) [ 47 ] Community-based integrated learning management • Disaster prevention • 23 Feng et al. (2017) [ 48 ] Disaster resilience of local communities/informal learning • Disaster prevention • 24 Frankenberg et al (2013) [ 49 ] University–community education network • Social Science • 25 Imperiale and Vanclay (2016) [ 50 ] Community learning effect • Community Sociology • 26 Jahangiri et al (2011) [ 51 ] Social learning theory/community-based disaster management • Disaster prevention • 27 Pascapurnama et al (2018) [ 52 ] University–community education network • Disaster prevention • 28 Rogayan Jr. and Dollete (2020) [ 53 ] Community-based disaster management • Education • 29 Tanaka (2005) [ 54 ] Community-based disaster risk management (DRM) • Geology • 30 Teo et al. (2019) [ 55 ] The relationship between communication, culture, and disaster response capabilities • Disaster prevention • • 31 Wang et al. (2019) [ 56 ] Community-based disaster risk management/Indigenous learning • Disaster prevention • 32 Tuohy et al. (2014) [ 57 ] Disaster response and crisis management theory • Disaster prevention • • 33 Byun et al. (2018) [ 58 ] Disaster resilience • • Public Administration • 34 Park (2016) [ 59 ] Constructivist learning theory • Policy science • 35 Seo and Cho (2012) [ 60 ] Role acting training/education training feedback • • Disaster prevention • 36 Oh and Park (2003) [ 61 ] Emergency management and governance • • Policy science • 37 Yoo et al. (2019) [ 62 ] Public–private cooperative governance theory • Policy science • • 38 Kim and Kim (2018) [ 63 ] Education effectiveness analysis • Firefighting • • 39 Steen-Hansen et al (2020) [ 64 ] Fire investigation and safety management • Firefighting • • 40 Chung (2014) [ 65 ] Disaster safety training effectiveness evaluation • • Disaster prevention • • 41 Lee (2017) [ 66 ] Emergency management and safety education system • • Occupational medicine • 42 Choi et al. (2019) [ 67 ] Social learning theory/motivation theory • Social science • 43 Hong and Lee (2018) [ 66 , 68 ] Disaster safety training effectiveness evaluation • • Disaster prevention • 44 Chou et al. (2015) [ 69 ] Constructivist learning theory • Disaster prevention • 45 Drzewiecki et al (2020) [ 70 ] Simulation learning effect analysis • Disaster prevention • 46 Engle (2018) [ 71 ] Disaster case study • Urban planning • 47 Ho and Dzeng (2010) [ 72 ] Blended learning effect • • Education •

Sustainability 2021 , 13 , 2505 12 of 18 Table 2. Cont Author (s) Ground Theory/Model Disaster Type Research Areas Education Target Social Natural General People Vulnerable People 48 Hoffmann and Muttarak (2017) [ 73 ] Disaster case study • Political Sociology • 49 Lee (2018) [ 74 ] Virtual reality education learning effect • • Design • 50 Karanci et al (2005) [ 75 ] Experiential learning theory • Community Sociology • 51 Marshall (2020) [ 76 ] Risk perception Disaster risk reduction (DRR) • • Disaster prevention • 52 Iwahori et al (2017) [ 77 ] Legitimate peripheral participation (LPP) • • Disaster prevention • 53 Suri (2018) [ 78 ] Disaster case study/Indigenous learning • Disaster prevention • 54 Torani et al. (2019) [ 79 ] Disaster emergency case study • Safety and Health • 55 Kim and Kim (2019) [ 80 ] Establish an integrated education system and analyze its effects • • Education • 56 Tsai et al. (2020) [ 81 ] Game learning theory • Disaster prevention • 4.2. Keyword Frequency Analysis and Network Analysis Table 3 shows the frequency of occurrence of important keywords among the keywords included in the literature analyzed. The study identified 624 keywords, and deleted nodes with unclear meanings and words that occurred fewer than three times. By means of this process, 457 keywords were extracted that appeared frequently. According to the centrality analysis presented in Table 3 , the result for “Disaster” was the highest. In addition, the results were confirmed in the order of “Education”, “Community”, “Safety”, “Engagement”, and “Experience”. Because “Disaster”, “Education”, and “Safety” were selected as the main search words, it was confirmed that “Community”, “Engagement”, “Experience”, and “Risk” showed high values from the frequency and centrality analysis excluding those selected words. In the derived keywords, the frequency of “Fires” and “Earthquakes” was high, and there were cases where disasters were presented as “Natural” in a large category Table 3. Keyword frequency and centrality No. Keyword Frequency Centrality No. Keyword Frequency Centrality 1 Disaster 146 0.319475 24 Adults 4 0.008753 2 Education 49 0.107221 25 Awareness 4 0.008753 3 Community 27 0.059081 26 Exercise 4 0.008753 4 Safety 19 0.041575 27 Human 4 0.008753 5 Engagement 13 0.028446 28 Knowledge 4 0.008753 6 Experience 13 0.028446 29 Learning 4 0.008753 7 Risk 13 0.028446 30 Simulation 4 0.008753 8 Preparedness 10 0.021882 31 Civic engagement 3 0.006565 9 Management 9 0.019694 32 Disaster education 3 0.006565 10 Fire 7 0.015317 33 Elderly 3 0.006565 11 Resilience 7 0.015317 34 Ethnicity 3 0.006565 12 Social 7 0.015317 35 Experiential learning 3 0.006565 13 Aging 6 0.013129 36 Governance 3 0.006565 14 Culture 6 0.013129 37 Importance 3 0.006565 15 Earthquake 6 0.013129 38 Local 3 0.006565 16 Lifelong learning 6 0.013129 39 Local community 3 0.006565 17 Reduction 6 0.013129 40 Multimedia systems 3 0.006565 18 Vulnerable 6 0.013129 41 Partnership 3 0.006565 19 Hazard 5 0.010941 42 Public–private 3 0.006565 20 Natural 5 0.010941 43 Qualitative research 3 0.006565 21 Prevention 5 0.010941 44 Storytelling 3 0.006565 22 Response 5 0.010941 45 Study 3 0.006565 23 Vulnerability 5 0.010941 46 Training 3 0.006565

Sustainability 2021 , 13 , 2505 13 of 18 Figure 6 visualizes the keywords related to community-based disaster safety education in a word cloud. The “Word Cloud Generator” ( http://wordcloud.kr/ accessed on 10 February 2020) application was used to keywords excluding all keywords and major search terms in the literature. Figure 6 a visualizes the results of applying all keywords, and (Figure 6 b) visualizes the keywords, excluding “Disaster”, “Safety”, “Education”, and “Local residents”, which were used as major keywords. Looking at the word cloud in which the main search words were deleted, keywords such as “Community”, “Engagement”, “Experience”, “Risk”, “Preparedness”, and “Management” were identified as the main topics, indicating that these are important factors in the field Sustainability 2021 , 13 , x FOR PEER REVIEW 14 of 20 search terms in the literature. Figure 6 a visualizes the results of applying all keywords, and (Figure 6 b) visualizes the keywords, excluding “Disaster”, “Safety”, “Education”, and “Local residents”, which were used as major keywords. Looking at the word cloud in which the main search words were deleted, keywords such as “Community”, “Engagement”, “Experience”, “Risk”, “Preparedness”, and “Management” were identified as the main topics, indicating that these are important factors in the field. ( a ) ( b ) Figure 6. Words cloud of key keywords of civic engagement disaster safety education research: ( a ) words cloud for all keywords; ( b ) excluding “Disaster”, “Safety”, “Education”, and “Local residents”. Figure 7 presents a network map created by applying the connection centerline to the main keywords, excluding the keywords with a frequency of fewer than three. The study identified 163 connecting lines between 46 keywords. The size of the node shown in the picture means that the keyword appears frequently at the same time. In addition, the more neighbors it has, the more important the node seems to be. Connections of special significance are “Disaster–Education”, “Education–Lifelong learning”, “Community–Engagement”, “Disaster–Management”, “Disaster–Risk–Management”, “Learning–Experience”, and “Community–Learning”. It was confirmed that the number of times appears simultaneously. Figure 6. Words cloud of key keywords of civic engagement disaster safety education research: ( a ) words cloud for all keywords; ( b ) excluding “Disaster”, “Safety”, “Education”, and “Local residents” Figure 7 presents a network map created by applying the connection centerline to the main keywords, excluding the keywords with a frequency of fewer than three. The study identified 163 connecting lines between 46 keywords. The size of the node shown in the picture means that the keyword appears frequently at the same time. In addition, the more neighbors it has, the more important the node seems to be. Connections of special significance are “Disaster–Education”, “Education–Lifelong learning”, “Community– Engagement”, “Disaster–Management”, “Disaster–Risk–Management”, “Learning– Experience”, and “Community–Learning”. It was confirmed that the number of times appears simultaneously Sustainability 2021 , 13 , x FOR PEER REVIEW 15 of 20 Figure 7. Keyword network map. 5. Discussion and Implications We explored the research trends of disaster safety education based on communities and major research topics in the relevant field by means of a systematic literature review and keyword network analysis, and we derived some implications. Research into community-based disaster safety education started relatively recently; its history is not long, but the research is ongoing. In particular, research on residents’ participatory disaster safety education was attracting attention as the best way to ensure an effective response to disasters, and studies on educational content, methods, and effects based on “civic engagement” were mainly conducted. As a result of reviewing selected research, our study confirmed that most of the studies conducted case studies on the contents of disaster safety education, and included natural disasters such as earthquakes, heavy rains, floods, and typhoons. In the early stages of disaster safety education based on communities, studies were mainly conducted to include direct damage cases from natural disasters and include them in the contents of education [82]. The study found that the direction of these studies has changed from dealing with the disaster damage itself to taking into account the risk of secondary disasters, such as the collapse of facilities, fires, and explosions after the disaster. Disaster safety education is currently being studied in various fields, mainly in disaster prevention, but also in fields such as education, public administration, geology, political sociology, sociology, and psychology. Interdisciplinary convergence is essential to induce the participation and commitment of residents to improve the disaster response capacity of the community, to manage and reduce risks, and to effectively produce and operate education programs tailored to the region. In some countries, trans-disciplinary research, such as disaster prevention and pedagogy, safety engineering and pedagogy, or geology and disaster prevention, has been conducted based on this need. Preston et al [10] argued that education on disaster safety can improve the resilience of the community, and Kitagawa et al [6] insisted that research should be conducted on disaster safety education in the field of lifelong education. Factors such as civic engagement, safety community formation, disaster resilience, and social capital discussed above suggest that disaster safety education provides another direction for lifelong education based on the community. Figure 7. Keyword network map.

Sustainability 2021 , 13 , 2505 14 of 18 5. Discussion and Implications We explored the research trends of disaster safety education based on communities and major research topics in the relevant field by means of a systematic literature review and keyword network analysis, and we derived some implications. Research into community-based disaster safety education started relatively recently; its history is not long, but the research is ongoing. In particular, research on residents’ participatory disaster safety education was attracting attention as the best way to ensure an effective response to disasters, and studies on educational content, methods, and effects based on “civic engagement” were mainly conducted As a result of reviewing selected research, our study confirmed that most of the studies conducted case studies on the contents of disaster safety education, and included natural disasters such as earthquakes, heavy rains, floods, and typhoons. In the early stages of disaster safety education based on communities, studies were mainly conducted to include direct damage cases from natural disasters and include them in the contents of education [ 82 ]. The study found that the direction of these studies has changed from dealing with the disaster damage itself to taking into account the risk of secondary disasters, such as the collapse of facilities, fires, and explosions after the disaster Disaster safety education is currently being studied in various fields, mainly in disaster prevention, but also in fields such as education, public administration, geology, political sociology, sociology, and psychology. Interdisciplinary convergence is essential to induce the participation and commitment of residents to improve the disaster response capacity of the community, to manage and reduce risks, and to effectively produce and operate education programs tailored to the region. In some countries, trans-disciplinary research, such as disaster prevention and pedagogy, safety engineering and pedagogy, or geology and disaster prevention, has been conducted based on this need. Preston et al. [ 10 ] argued that education on disaster safety can improve the resilience of the community, and Kitagawa et al. [ 6 ] insisted that research should be conducted on disaster safety education in the field of lifelong education. Factors such as civic engagement, safety community formation, disaster resilience, and social capital discussed above suggest that disaster safety education provides another direction for lifelong education based on the community Residents who are subject to education are classified into general citizens and disastervulnerable groups (e.g., elderly people, disabled people, and foreign workers) Out of the 56 studies, 7 were related to the disaster-vulnerable groups. Another seven studies were done on educational programs and educational effects that consider the physical vulnerabilities of this group, but there is a limitation to unidirectional education. The study found that a study that considers various aspects of education targeting the disaster-vulnerable class is necessary As for disaster types, 18 studies dealt with complex disasters, 2 with social disasters, and 36 with natural disasters. Since most of these types of studies are based on real cases, an understanding of the community is needed first. Understanding from various fields is essential, such as the culture of the community, geographical characteristics, and the awareness of the residents. Lifelong education is similar to civic engagement disaster safety education, in that it aims to be immersed in the community, improve the quality of life, and foster independent people; this suggests another research direction for lifelong education There are several limitations to this study. Since research related to civic engagement disaster-safety education is still in its infancy, there are not many studies. The amount of accumulated information and knowledge is also very limited. We would like to make some suggestions for supplementing the limitations of this study and for conducting follow-up studies. The implications of the developmental direction of disaster safety education research for the effective management of disasters we found in this study are as follows. First, disaster safety education based on the community is closely related to the lives of residents who are subject to education in terms of space and society. Disaster safety education based on the community, such as community commitment, civic engagement, disaster management, and risk governance, can have different risks and resiliencies, depending on

Sustainability 2021 , 13 , 2505 15 of 18 the level of awareness of the region. To actively respond to a rapidly changing society and disasters, it is necessary to conduct research on education that can contribute to raising the level of awareness of residents and the development of disaster response capabilities of the community Second, it is necessary to conduct systematic research on disaster safety education as interdisciplinary research in the fields that have been independently studied. In particular, research on disaster safety education should be conducted from the perspective of lifelong education, because disaster safety education requires a learner’s lifelong approach, and an understanding of the class is essential for the establishment and operation of education programs for the disaster-vulnerable group. Also, for lifelong education, the content of education is not limited, but covers various fields, such as language, culture, engineering, and technology. This is expected to be a key function for equipping communities with sustainable disaster response capabilities In some countries, including Korea, education for elderly people, disabled people, and multicultural families is being conducted, but the absence of specialized educational institutions has led to inadequate participation. Universities and research institutes related to lifelong education need to conduct research on education for these groups. In addition, it is necessary to analyze various cases of disasters by applying research methods in the field of lifelong education, such as narration and storytelling, and to establish a disaster occurrence scenario. This study can lay an academic framework by its undertaking of in-depth analysis of disaster risk management and risk in communities. In addition, interdisciplinary convergence research will contribute to establishing and operating regional customized educational scenarios and effective educational programs Author Contributions: Concept, H.J.S. and A.J.H.; methodology, H.J.S. and A.J.H.; software, H.J.S and M.S.; validation A.J.H., H.J.S. and M.S.; formal analysis, A.J.H. and H.J.S.; investigation, H.J.S. and M.S.; resources, H.J.S. and M.S.; data curation, A.J.H.; writing—original draft preparation, H.J.S.; writing—review and editing, A.J.H.; visualization, H.J.S. and M.S.; supervision, A.J.H.; project administration, A.J.H.; funding acquisition, A.J.H. All authors have read and agreed to the published version of the manuscript Funding: This work was supported by the Ministry of Education of the Republic of Korea and the National Research Foundation of Korea (NRF-2020 S 1 A 3 A 2 A 02091529) Institutional Review Board Statement: Not applicable Informed Consent Statement: Not applicable Data Availability Statement: Data sharing is not applicable to this article Conflicts of Interest: The authors declare no conflict of interest References 1 Astill, S. The importance of supervisory and organisational awareness of the risks for an early career natural hazard researcher with personal past-disaster experience Emot. Space Soc 2018 , 28 , 46–52. [ CrossRef ] 2 Dahl, K.K.B.; Millora, C.M. Lifelong learning from natural disasters: Transformative group-based learning at philippine universities Int. J. Lifelong Educ 2016 , 35 , 648–663. [ CrossRef ] 3 Amon, R.; Damaso, R.; Sayaman, M. From vulnerable to empowered—Disaster risk education that matters Adult Educ. Dev 2015 , 82 , 44–48 4 Hosseini, K.A.; Izedkhah, Y.O. From “earthquake and safety” school drills to “safe school-resilient communities”: A continuous attempt for promoting community-based disaster risk management in Iran Int. J. Disaster Risk Reduct 2020 , 45 , 101512. [ CrossRef ] 5 Lee, Y.U.; Nam, D.Y.; Jeong, H.M.; Park, S.H.; Lee, J.H. A case study on local-based community recovery program in disaster affected areas J. Korean Soc. Saf 2020 , 35 , 106–114 6 Kitagawa, K. Disaster preparedness, adaptive politics and lifelong learning: A case of Japan Int. J. Lifelong Educ 2016 , 25 , 629–647. [ CrossRef ] 7 Salajegheh, S.; Pirmoradi, N. Community-based disaster risk management (CBDRM) and providing a model for Iran Int. J. Eng Res. Dev 2013 , 7 , 60–69 8 Mishra, S. Effects of anxiety, disaster education, and resources on disaster preparedness behavior J. Appl. Soc. Psychol 2012 , 42 , 1069–1087. [ CrossRef ]

Sustainability 2021 , 13 , 2505 16 of 18 9 Siriwardena, M.; Malalgoda, C.; Thayaparan, M.; Amaratunga, D.; Keraminiyage, K. Disaster resilient built environment: Role of lifelong learning and the implications for higher education Int. J. Strateg. Prop. Manag 2013 , 17 , 174–187. [ CrossRef ] 10 Preston, J.; Chadderton, C.; Kitagawa, K.; Edmonds, C. Community response in disasters: An ecological learning framework Int. J. Lifelong Educ 2015 , 34 , 727–753. [ CrossRef ] 11 Thayaparan, M.; Siriwardena, M.; Malalgoda, C.I.; Amaratunga, D.; Lill, I.; Kaklauskas, A. Enhancing post-disaster reconstruction capacity through lifelong learning in higher education Disaster Prev. Manag 2015 , 24 , 338–354. [ CrossRef ] 12 Johnston, K.A. Community engagement: Exploring a relational approach to consultation and collaborative practice in Australia J. Promot. Manag 2010 , 16 , 217–234. [ CrossRef ] 13 Bosher, L.; Dainty, A. Disaster risk reduction and ‘built-in’ resilience: Towards overarching principles for construction practice Disasters 2011 , 35 , 1–18. [ CrossRef ] [ PubMed ] 14 McHugh, K.; Klockner, K. Learning lessons from rail safety storytelling: Telling safety like it is Saf. Sci 2020 , 112 , 104524. [ CrossRef ] 15 Janse, G.; Konijnendijk, C.C. Communication between science, policy and citizens in public participation in urban forestry— Experiences from the neighbourwoods project Urban For. Urban Green 2007 , 6 , 23–40. [ CrossRef ] 16 Krasny, M.; Lundholm, C.; Plummer, R. Environmental education, resilience and learning: Reflection and moving forward Environ. Educ. Res 2010 , 16 , 665–672. [ CrossRef ] 17 Park, S.Y.; Eo, Y.S. Mediating effect of Ego-resilience in the relationship between social capital and safety awareness safety pursuit behavior of adult learner: Focusing on Changwon City J. Fish. Mar. Sci. Educ 2016 , 28 , 162–171. [ CrossRef ] 18 Park, S.Y. A Study on the Relations among the Disaster and Safety Education, Citizenship, and Social Capital. Master’s Thesis, Sogang University, Seoul, Koera, 2016 19 Kim, R.H.; Kwon, Y.S.; Kim, H.Y. A study on the effectiveness of training on the disaster and safety management for public employees Korean Public Pers. Adm. Rev 2014 , 13 , 385–401 20 Oh, B.S. Study of Customized Disaster Safety Educations System for Protection of People’s Life—Based of SQS (Smart Quest System). Master’s Thesis, Kangwon University, Kangwon, Koera, 2014 21 Bankoff, G. Living with risk, coping with disasters: Hazard as a frequent life experience in the Philippines Educ. Asia 2007 , 12 , 26–29 22 Kang, S.W. An analysis of the research trends in safety education for elementary school: Focused on tendency and task J. Elem. Educ 2015 , 25 , 15–36. [ CrossRef ] 23 Go, J.W.; Choi, M.S. The influence of situational role paly oriented safety education on safety problem solving ability and self-regulation of young children Korean J. Child Educ 2016 , 28 , 1–24 24 Park, E.Y. The effects of safety education programs: A meta-analysis J. Educ 2019 , 39 , 95–117. [ CrossRef ] 25 Mechling, L.C. Thirty year review of safety skill instruction for persons with intellectual disabilities Educ. Train. Dev. Disab 2008 , 43 , 311–323 26 Simpson, D.M. Earthquake Drills and Simulations in Community-Based Training and Preparedness Programmes Disasters 2002 , 26 , 55–69. [ CrossRef ] [ PubMed ] 27 Suwa, C.; Yamamoto, F.; Atsumi, T. Disaster Prevention as Community Education: From the Viewpoint of Activity Theory Korean J. Cult. Soc. Issues 2008 , 14 , 415–425 28 Katada, T.; Kuwasawa, N.; Shida, S.; Kojima, M. Scenario Analysis for Evacuation Strategies for Residents in Big Cities during Large-Scale Flooding J. Jpn. Soc. Civil Eng 2013 , 69 , 71–82. [ CrossRef ] 29 Lee, J.H. Issues and Development Direction of Disaster Safety Education for Disaster Vulnerable Groups –Focusing on Multicultural Family- Crisisonomy 2016 , 12 , 37–50. [ CrossRef ] 30 Son, H.J. The Study of Fire & Disaster Accident, Safety Education and Awareness Program for the Developmental Disabled Welfare Facility J. Spec. Educ. Rehabilition Sci 2018 , 57 , 433–455. [ CrossRef ] 31 Cooper, V.A.; Forino, G.; Kanjanabootra, S.; von Meding, J. Leveraging the Community of Inquiry Framework to Support Web-Based Simulations in Disaster Studies Internet High Educ 2020 , 47 , 100757. [ CrossRef ] 32 Higgins, J.P.T.; Thomas, J.; Chandler, J.; Cumpston, M.; Li, T.; Page, M.J.; Welch, V.A. Cochrane Handbook for Systematic Reviews of Interventions Version 6.0. Available online: www.training.cochrane.org/handbook (accessed on 10 February 2020) 33 Zeng, T.; Chen, G.; Yang, Y.; Reniers, G.; Zhao, Y.; Liu, X. A systematic literature review on safety research related to chemical industrial parks Sustainability 2020 , 12 , 5753. [ CrossRef ] 34 Moher, D.; Liberati, A.; Tetzlaff, J.; Altman, D.G.; The PRISMA Group. Preferred reporting items for systematic reviews and meta-analyses: The PRISMA statement PLoS Med 2009 , 6 , e 1000097. [ CrossRef ] [ PubMed ] 35 De Jes ú s Arce-Mojica, T.; Nehren, U.; Sudmeier-Rieux, K.; Miranda, P.J.; Anhuf, D. Nature-based Solutions (NbS) for reducing the risk of shallow landslides: Where do we stand? Int. J. Disaster Risk Reduct 2019 , 41 , 101293. [ CrossRef ] 36 Ruangpan, L.; Vojinovic, Z.; Sabatino, S.D.; Laura Sandra Leo, L.S.; Capobianco, V.; Oen, A.M.P.; McClain, M.E.; Elena Lopez-Gunn, E. Nature-based Solutions for hydro-meteorological risk reduction: A state-of-the-art review of the research area Nat. Hazards Earth Syst. Sci 2020 , 20 , 243–270. [ CrossRef ] 37 Seo, M.G.; Lee, U.K. Recent research trends analysis of building information modeling using wordcloud through comparison of Korean and international journals J. Korea Inst. Build. Constr 2019 , 19 , 95–103. [ CrossRef ] 38 Miller, S.A.; Forrest, J.L. Enhancing your practice through evidence-based decision making: PICO, learning how to ask good questions J. Evid. Based Dent. Pract 2001 , 1 , 136–141. [ CrossRef ]

Sustainability 2021 , 13 , 2505 17 of 18 39 Schardt, C.; Adams, M.B.; Owens, T.; Keitz, S.; Fontelo, P. Utilization of the PICO framework to improve searching pubmed for clinical questions BMC Med. Inform. Decis. Mak 2007 , 7 , 1–6. [ CrossRef ] 40 Niskala, J.; Kanste, O.; Tomietto, M.; Miettunen, J.; Tuomikoski, A.M.; Kyngäs, H.; Mikkonen, K. Interventions to improve nurses’ job satisfaction: A systematic review and meta-analysis J. Adv. Nurs 2020 , 76 , 1498–1508. [ CrossRef ] 41 Goto, Y.; Ogawa, Y.; Komura, T. Tsunami disaster reduction education using town watching and moving tsunami evacuation animation: Trial in Banda Aceh J. Earthq. Tsunami 2010 , 4 , 115–126. [ CrossRef ] 42 Kim, H.; Mun, S.Y. Exploring the educational use of artificial intelligence based on R mapping—Focusing on foreign publication analysis results J. Korean Assoc. Inf. Educ 2020 , 24 , 313–325. [ CrossRef ] 43 Ryan, B.; Johnston, K.A.; Taylor, M.; McAndrew, R. Community engagement for disaster preparedness: A systematic literature review Int. J. Disast. Risk Reduct 2020 , 49 , 101655. [ CrossRef ] 44 Kim, C. The introduction of the certification of national safety education for settling the safety culture in local communities Korean J. Converg. Sci 2018 , 7 , 14–27 45 Choi, J.; Choi, C. The application of hyangyak based on communities of practice for disaster prevention education and its implications J. Korean Soc. Hazard Mitig 2018 , 18 , 69–78. [ CrossRef ] 46 Annear, M.J.; Otani, J.; Gao, X.; Keeling, S. Japanese perceptions of societal vulnerability to disasters during population ageing: Constitution of a new scale and initial findings Int. J. Disast. Risk Reduct 2016 , 18 , 32–40. [ CrossRef ] 47 Chou, J.S.; Wu, J.H. Success factors of enhanced disaster resilience in urban community Nat. Disaster 2014 , 74 , 661–686. [ CrossRef ] 48 Feng, S.F.; Hossain, L.; Paton, D. Harnessing informal education for community resilience Disaster Prev. Manag 2017 , 27 , 43–59. [ CrossRef ] 49 Frankenberg, E.; Sikoki, B.; Sumantri, C.; Suriastini, W.; Thomas, D. Education, vulnerability, and resilience after a natural disaster Ecol. Soc 2013 , 18 , 16. [ CrossRef ] 50 Imperiale, A.J.; Vanclay, F. Experiencing local community resilience in action: Learning from post-disaster communities J. Rural Stud 2016 , 47 , 204–219. [ CrossRef ] 51 Jahangiri, K.; Izadkhah, Y.O.; Tabibi, S.J. A comparative study on community-based disaster management in selected countries and designing a model for Iran Disaster Prev. Manag 2011 , 20 , 82–94. [ CrossRef ] 52 Pascapurnama, D.N.; Murakami, A.; Chagan-Yasutan, H.; Hattori, T.; Sasaki, H.; Egawa, S. Integrated health education in disaster risk reduction: Lesson learned from disease outbreak following natural disasters in Indonesia Int. J. Disast. Risk Reduct 2018 , 29 , 94–102. [ CrossRef ] 53 Rogayan, D.V., Jr.; Dollete, L.F. Disaster awareness and preparedness of Barrio community in Zambales, Philippines: Creating a baseline for curricular integration and extension program Rev. Int. Geogr. Educ. Online 2020 , 10 , 92–114. [ CrossRef ] 54 Tanaka, K. The impact of disaster education on public preparation and mitigation for earthquakes: A cross-country comparison between Fukui, Japan and the San Francisco Bay Area, California, USA Appl. Geogr 2005 , 25 , 201–225. [ CrossRef ] 55 Teo, M.; Goonetlleke, A.; Deilami, K.; Ahankoob, A.; Lawie, M. Engaging residents from different ethnic and language backgrounds in disaster preparedness Int. J. Disast. Risk Reduct 2019 , 39 , 101245. [ CrossRef ] 56 Wang, Z.; Liu, J.; Xu, N.; Fan, C.; Fan, Y.; He, S.; Jiao, L.; Ma, N. The role of indigenous knowledge in integrating scientific and indigenous knowledge for community-based disaster risk reduction: A case of Haikou village in Ningxia, China Int. J. Disast Risk Reduct 2019 , 41 , 101309. [ CrossRef ] 57 Tuohy, R.; Stephens, C.; Johnston, D. Older adults’ disaster preparedness in the context of the September 2010–December 2012 canterbury earthquake sequence Int. J. Disast. Risk Reduct 2014 , 9 , 194–203. [ CrossRef ] 58 Byun, S.S.; Lee, J.E.; Kim, D.; Na, J.I.; Yang, G.G.; Lee, J.H.; Kim, A.Y.; Kim, G.H. Public-private partnership for operating safety experience and education center—A comparative analysis of the US, Canada, and Japan Crisisonomy 2018 . [ CrossRef ] 59 Park, J.Y.; Kim, G. A systematic review on studies related to disaster J. Korea Acad. Ind. Coop. Soc 2018 , 19 , 276–292. [ CrossRef ] 60 Seo, J.P.; Cho, W.C. A study on the revitalization of disaster prevention education programs J. Korean Soc. Hazard Mitig 2012 , 12 , 95–105. [ CrossRef ] 61 Oh, K.; Park, B.C. Importance and strengthening of the disaster prevention education GRI Rev 2003 , 5 , 53–67 62 Yoo, Y.M.; Kim, E.H.; Lee, G.C.; Zhao, J.; Kim, S.Y. An education system for collaborative governance in disaster management—A comparative study of South Korea, the U.S. and Japan Crisisonomy 2019 , 15 , 1–15. [ CrossRef ] 63 Kim, Y.D.; Kim, Y. Study on the development and the effects of a fire safety education program for the elderly Fire Sci. Eng 2018 , 32 , 123–133. [ CrossRef ] 64 Steen-Hansen, A.; Sroresund, K.; Sesseng, C. Learning from fire investigations and research—A Norwegian perspective on moving from a reactive to a proactive fire safety management Fire Saf. J 2020 , 103047. [ CrossRef ] 65 Chung, G. Effect of disaster and safety education on disaster risk assessment J. Korean Soc. Disaster Inf 2014 , 10 , 366–372. [ CrossRef ] 66 Lee, C.H. A suggestion on the operation direction of the disaster education system for the systematization of disaster management J. Soc. Converg. Stud 2017 , 1 , 29–37. [ CrossRef ] 67 Choi, J.; Lee, D.; Choi, C. The strategy of disaster prevention education of the community for large-scale disaster response J. Korean Cadastre Inf. Assoc 2019 , 21 , 115–124. [ CrossRef ] 68 Hong, E.; Lee, I. Effectiveness of disaster training for community residents: A systematic review J. Korean Soc. Hazard Mitig 2018 , 18 , 205–212. [ CrossRef ]

Sustainability 2021 , 13 , 2505 18 of 18 69 Chou, J.S.; Yang, K.H.; Ren, T.C. Ex-post evaluation of preparedness education in disaster prevention, mitigation and response Int. J. Disast. Risk Reduct 2015 , 12 , 188–201. [ CrossRef ] 70 Drzewiecki, D.M.; Wavering, H.M.; Milbrath, G.R.; Freeman, V.L.; Lin, J.Y. The association between educational attainment and resilience to natural hazard-induced disasters in the west indies: St. Kitts & Nevis Int. J. Disast. Risk Reduct 2020 , 47 , 101637. [ CrossRef ] 71 Engle, J. Stories of tragedy, trust and transformation? A case study of education-centered community development in postearthquake Haiti Prog. Plann 2018 , 124 , 1–34. [ CrossRef ] 72 Ho, C.L.; Dzeng, R.J. Construction safety training via e-learning: Learning effectiveness and user satisfaction Comput. Educ 2010 , 55 , 858–867. [ CrossRef ] 73 Hoffmann, R.; Muttarak, R. Learn from the past, prepare for the future: Impacts of education and experience on disaster preparedness in the Philippines and Thailand World Dev 2017 , 96 , 32–51. [ CrossRef ] 74 Lee, J.H. Review and analysis on VR disaster education simulation—Derivation of required technology through analysis of domestic disaster experience J. Korean Soc. Des. Cult 2018 , 24 , 511–522. [ CrossRef ] 75 Karanci, A.N.; Aksit, B.; Dirik, G. Impact of a community disaster awareness training program in turkey: Does it influence hazard-related cognitions and preparedness behaviors Soc. Behav. Pers 2005 , 33 , 243–258. [ CrossRef ] 76 Marshall, T.M. Risk perception and safety culture: Tools for improving the implementation of disaster risk reduction strategies Int. J. Disaster Risk Reduct 2020 , 47 , 101557. [ CrossRef ] 77 Iwahori, T.; Yamori, K.; Miyamoto, T.; Shiroshita, H.; Iio, Y. Disaster education based on legitimate peripheral participation theory: A new model of disaster science communication J. Nat. Disaster Sci 2017 , 38 , 1–15. [ CrossRef ] 78 Suri, K. Understanding historical, cultural and religious frameworks of mountain communities and disasters in nubra valley of Ladakh Int. J. Disast. Risk Reduct 2018 , 31 , 504–513. [ CrossRef ] 79 Torani, S.; Majd, P.M.; Maroufi, S.S.; Dowlati, M.; Sheikhi, R.A. The importance of education on disasters and emergencies: A review article J. Educ. Health Promot 2019 , 8 , 1–7. [ CrossRef ] 80 Kim, S.H.; Kim, S.H. The study of comparative analysis about natural disaster education by countries J. Educ. Bus 2019 , 33 , 95–110. [ CrossRef ] 81 Tsai, M.H.; Chang, Y.L.; Shiau, J.S.; Wang, S.M. Exploring the effects of a serious game-based learning package for disaster prevention education: The case of battle of flooding protection Int. J. Disast. Risk Reduct 2020 , 43 , 101393. [ CrossRef ] 82 Park, I.Y. A study on the development plan of disaster safety education Korea Policy J 2016 , 16 , 71–92.