Editorial Board Member

Tae Sung Cheong
Acadamic Profile
Affiliation	National Disaster Management Institute
Country	South Korea
Scopus ID	7003647020
Documents	20
Citations	504
h-index	8
Subject Area	Disaster Risk Management
Event	Global Hydrologists Awards

Tae Sung Cheong is affiliated with the National Disaster Management Institute in South Korea and is recognized for scholarly contributions in the field of disaster risk management and hydrological resilience studies. His academic profile demonstrates interdisciplinary engagement involving disaster preparedness, environmental risk reduction, and institutional response systems. With documented research outputs indexed in Scopus, his work contributes to the advancement of evidence-based disaster management frameworks and sustainable mitigation policies across vulnerable regions.

The editorial and academic activities associated with Tae Sung Cheong reflect an active role in scientific communication, international collaboration, and applied disaster research. His publication record and citation performance indicate sustained scholarly engagement within the disaster management community, particularly in areas involving hazard assessment, climate adaptation, and emergency governance.

Abstract

This article presents an academic overview of Tae Sung Cheong and his contributions to disaster risk management, environmental resilience, and hydrological governance. The profile summarizes institutional affiliation, research productivity, citation metrics, and thematic research directions relevant to contemporary disaster mitigation frameworks. Particular attention is given to the role of interdisciplinary research and editorial involvement in advancing global discussions on resilience planning and hazard reduction.

Keywords

Disaster Risk Management; Hydrology; Climate Resilience; Emergency Governance; Hazard Assessment; Environmental Sustainability; Editorial Board; Scientific Communication; Disaster Preparedness; Research Impact.

Introduction

Disaster risk management has become an increasingly important interdisciplinary domain due to the growing frequency and intensity of natural hazards and climate-induced events worldwide. Researchers working within this field contribute to the development of risk-informed policies, preparedness strategies, and resilient infrastructure systems designed to minimize environmental and societal vulnerabilities.

Tae Sung Cheong’s academic activities align with these broader scientific objectives through research emphasizing integrated disaster management and institutional resilience. His publication history reflects engagement with topics related to emergency planning, environmental monitoring, and adaptive management systems relevant to hydrological and disaster-related disciplines.

Research Profile

According to indexed academic records, Tae Sung Cheong has authored or co-authored twenty scholarly documents with a citation count exceeding five hundred citations and an h-index of eight.These metrics indicate measurable academic visibility and sustained engagement within the scientific community. His research portfolio demonstrates interdisciplinary interaction between disaster science, hydrological risk analysis, and public policy implementation.

The institutional association with the National Disaster Management Institute further reflects a professional orientation toward applied disaster management research and policy support systems. Such affiliations commonly support national and international initiatives related to risk reduction, emergency response, and sustainability planning.

Research Contributions

The research contributions associated with Tae Sung Cheong encompass themes involving disaster preparedness, institutional resilience, environmental governance, and risk communication. These themes are closely connected to contemporary hydrological and climate adaptation challenges affecting urban and regional systems globally.

His scholarly activities also indicate participation in knowledge dissemination processes through editorial and collaborative academic functions. Editorial board involvement often supports peer review quality, scientific integrity, and dissemination of emerging findings within specialized disciplines.

Research relating to disaster risk governance increasingly requires integrated approaches involving hydrology, infrastructure planning, environmental monitoring, and policy implementation. Contributions within these areas provide practical relevance for governments, institutions, and scientific organizations involved in hazard reduction and resilience strategies.

Publications

Selected indexed publications and collaborative studies associated with Tae Sung Cheong demonstrate engagement with disaster resilience and environmental management topics. These works contribute to the scientific understanding of adaptive governance systems and disaster mitigation methodologies.

• Research concerning disaster response frameworks and emergency preparedness systems.
• Studies addressing climate resilience and integrated environmental governance.
• Collaborative analyses involving risk assessment and hydrological sustainability models.

Research Impact

Citation metrics associated with Tae Sung Cheong’s scholarly output suggest notable visibility within disaster risk management and related interdisciplinary domains. Research impact indicators such as citation frequency and h-index values are commonly used to evaluate scholarly influence and sustained research engagement within international indexing databases.

The integration of hydrological and disaster management perspectives contributes to broader scientific discussions surrounding resilience planning, sustainable development, and environmental adaptation strategies. Such contributions are particularly relevant in regions experiencing increasing climate-related vulnerabilities and infrastructure pressures.

Award Suitability

The academic profile of Tae Sung Cheong demonstrates alignment with evaluation criteria frequently associated with international scientific recognition programs, including publication activity, citation performance, editorial participation, and interdisciplinary contribution. His documented involvement in disaster risk management and resilience-oriented research supports relevance within hydrological and environmental science communities.

The Global Hydrologists Awards emphasize scientific advancement, research dissemination, and global collaboration in hydrology and related disciplines. Contributions involving disaster resilience, environmental governance, and risk mitigation provide contextual relevance for recognition within such academic award frameworks.

Conclusion

Tae Sung Cheong’s academic and editorial profile reflects sustained engagement in disaster risk management research and interdisciplinary resilience studies. His indexed publications, citation metrics, and institutional affiliation collectively indicate meaningful participation in scientific efforts addressing environmental sustainability and hazard mitigation. Through continued scholarly communication and collaborative research activities, his work contributes to broader international discussions surrounding disaster preparedness and hydrological resilience.

External Links

• Google Scholar Profile
• Scopus Author Profile
• Representative DOI Link
• Global Hydrologists Awards

References

1. Elsevier. (n.d.). Scopus author details: Tae Sung Cheong, Author ID 7003647020. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=7003647020
   
2. United Nations Office for Disaster Risk Reduction. (2021). Global Assessment Report on Disaster Risk Reduction.
   https://www.undrr.org/
   
3. Chatwin, T. D., Castro-Santos, T., & Stevens, E. D. (1999). Predicting longitudinal dispersion coefficient in natural streams. Journal of Hydraulic Engineering, 125(5), 503–510.
   https://scholar.google.com/citations
4. Runkel, R. L. (1998). Moment-based calculation of parameters for the storage zone model for river dispersion. Journal of Environmental Engineering, 124(3), 278–281.
   https://scholar.google.com/citations
5. Peake, S., McKinley, R. S., & Scruton, D. A. (1997). Evaluation of adult white sturgeon swimming capabilities and applications to fishway design. Environmental Biology of Fishes, 48(1–4), 289–298.
   https://scholar.google.com/citations