TY - JOUR
T1 - Coastal Protection Strategies to Minimize Transportation Network Disruption from Sea Level Rise
AU - Papakonstantinou, Ilia
AU - Siwe, Alain Tcheukam
AU - Chow, Aaron C.H.
AU - Sun, Jiayun
AU - Madanat, Samer M.
N1 - Publisher Copyright:
© 2024 The Authors.
PY - 2025
Y1 - 2025
N2 - As sea levels rise, there has been an increase in research focused on the protection of shoreline infrastructure and transportation systems that may increasingly suffer from permanent capacity and accessibility reduction. This paper focuses on Abu Dhabi, UAE, a city vulnerable to inundation due to its insular geography, aiming to identify protection strategies that will minimize transportation network delays. The model considers hydrodynamic interactions and traffic assignment. The results show some shoreline portions are critical, and their protection leads to less congestion, while there are combinations of shoreline protection that worsen the congestion levels. The results also show that in some cases, the marginal effects of protecting one precinct may yield a better reduction of congestion than multiple other precincts. This research can provide a general framework for the protection of transportation infrastructure against sea level rise.
AB - As sea levels rise, there has been an increase in research focused on the protection of shoreline infrastructure and transportation systems that may increasingly suffer from permanent capacity and accessibility reduction. This paper focuses on Abu Dhabi, UAE, a city vulnerable to inundation due to its insular geography, aiming to identify protection strategies that will minimize transportation network delays. The model considers hydrodynamic interactions and traffic assignment. The results show some shoreline portions are critical, and their protection leads to less congestion, while there are combinations of shoreline protection that worsen the congestion levels. The results also show that in some cases, the marginal effects of protecting one precinct may yield a better reduction of congestion than multiple other precincts. This research can provide a general framework for the protection of transportation infrastructure against sea level rise.
KW - climate resilience
KW - extreme weather events
KW - infrastructure protection
KW - Sea level rise
KW - tidal flooding
KW - traffic network modeling
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U2 - 10.1016/j.trpro.2024.12.241
DO - 10.1016/j.trpro.2024.12.241
M3 - Conference article
AN - SCOPUS:85216199215
SN - 2352-1457
VL - 82
SP - 3176
EP - 3197
JO - Transportation Research Procedia
JF - Transportation Research Procedia
T2 - 16th World Conference on Transport Research, WCTR 2023
Y2 - 17 July 2023 through 21 July 2023
ER -