Coastal Hazard Risk Assessment in a Changing Climate: A Review of Predictive Models and Emerging Technologies

Authors

Oyakojo Emmanuel Oladipupo

1Lyles School of Civil and Construction Engineering, Purdue University, United States

Author
Abdulahi Opejin

Coastal Studies, East Carolina University, United States.

Author

https://orcid.org/0009-0005-2945-5409
Jerome Nenger

Binghamton University, New York, United States.

Author

https://orcid.org/0000-0001-9095-6476
Ololade Sophiat Alaran

East Carolina University. United States.

Author

https://orcid.org/0009-0005-0720-5249

Keywords:

Climate change, Coastal hazard, risk assessment, Predictive modeling, Machine learning, GIS, Remote sensing, Coastal resilience.

Abstract

Climate change is one of the most significant problems facing the coastal regions throughout the entire world, exposing communities, infrastructure, and ecosystems to the risks of erosion, storm surges, floods, and sea level rise. Traditional risk assessment of coastal hazards using statistics-based techniques and deterministic models has been found useful, but is typically insufficient to capture a non-stationary climate regime and compound events. The paper establishes a coherent system to apply predictive analytics and new technologies to evaluate the risks associated with climate-induced events in the United States' coastal communities. Probability hazard maps from sea level rise, regional climate model, socioeconomics, and environmental features are developed using GIS and Random Forest, Extreme Gradient Boosting, and K-Nearest Neighbour. Due to the development of early warning systems, digital twins, the Internet of Things, next-generation monitoring satellite systems, and big data analytics, coastal management can become more proactive. In addition to providing a decision-making tool for resource distribution, treatment prioritization, and long-term adaptation planning, the resulting projection was more accurate with the system. In bringing together machine learning, geospatial analysis, and technology advances, the study provides a compelling window for resilience-building, adaptive management, and sustainable coastal risk management under accelerated climate change.

Author Biographies

Jerome Nenger, Binghamton University, New York, United States.

Community Research and Action,
Ololade Sophiat Alaran, East Carolina University. United States.

Facilities engineering and architectural services

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Published

2025-09-19

Issue

Vol. 12 No. 6 (2025): VOLUME 12 ISSUE 6

Section

Articles

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