TY - JOUR
T1 - HOW LAND USE CHANGES DUE TO SEA LEVEL MAY AFFECT TRAFFIC CONGESTION
AU - Papakonstantinou, Ilia
AU - Siwe, Alain Tcheukam
AU - Madanat, Samer Michel
N1 - Publisher Copyright:
© 2022, Jordan University of Science and Technology. All rights reserved.
PY - 2022
Y1 - 2022
N2 - This research investigates how land use changes due to sea level rise (SLR) may affect traffic network congestion and how preventive protection measures against SLR can significantly improve transportation network performance and possibly be cost effective. We use the San Francisco Bay Area shoreline, under a one-meter SLR, as a case study, and evaluate the results with different metrics: the number of commuters that are not able to execute their trip, and the Vehicle Hours Traveled increase. Our model considers both hydrodynamic and traffic effects. The results show that the relocation of commercial and residential buildings from inundated to dry areas will increase congestion levels, while preventive protection of the shoreline leads to lower levels of traffic congestion. Finally, we discuss other possible costs related to the absence of levee protection that should be evaluated by policy makers before developing SLR adaptation strategies.
AB - This research investigates how land use changes due to sea level rise (SLR) may affect traffic network congestion and how preventive protection measures against SLR can significantly improve transportation network performance and possibly be cost effective. We use the San Francisco Bay Area shoreline, under a one-meter SLR, as a case study, and evaluate the results with different metrics: the number of commuters that are not able to execute their trip, and the Vehicle Hours Traveled increase. Our model considers both hydrodynamic and traffic effects. The results show that the relocation of commercial and residential buildings from inundated to dry areas will increase congestion levels, while preventive protection of the shoreline leads to lower levels of traffic congestion. Finally, we discuss other possible costs related to the absence of levee protection that should be evaluated by policy makers before developing SLR adaptation strategies.
KW - Highway infrastructure protection
KW - Land use changes
KW - Sea-level rise
KW - Transportation networks
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M3 - Conference article
AN - SCOPUS:85132877381
SN - 2788-6204
JO - CESARE Conference Publications
JF - CESARE Conference Publications
T2 - 3rd Coordinating Engineering for Sustainability And Resilience, CESARE 2022
Y2 - 6 May 2022 through 9 May 2022
ER -