TY - JOUR
T1 - Mobility Impacts of Automated Driving and Shared Mobility
T2 - Explorative Model and Case Study of the Province of North-Holland
AU - Snelder, Maaike
AU - Wilmink, Isabel
AU - van der Gun, Jeroen
AU - Bergveld, Hendrik Jan
AU - Hoseini, Parvin
AU - van Arem, Bart
PY - 2019
Y1 - 2019
N2 - This paper presents a model specifically developed to explore the mobility impacts of connected and automated driving and shared mobility. It is an explorative iterative model that uses an elasticity model for destination choice, a multinomial logit model for mode choice and a network fundamental diagram to assess traffic impacts. To the best of the authors’ knowledge, it is the first model that combines a network fundamental diagram with choice models. A second contribution is the inclusion of automated vehicles, automated (shared) taxis, automated shared vans and new parking concepts in the model as well as the way in which they affect mobility choices and traffic conditions. The insights into the direct mobility impacts are the third contribution. The short computation time of the model enables exploration of large numbers of scenarios, sensitivity analyses and assessments of the impacts of interventions. The model was applied in a case study of the Dutch Province of North-Holland, in which the potential impacts of automated and shared vehicles and mitigating interventions were explored. In this case study, four extreme scenarios were explored, in which 100% of the vehicles have SAE-level 3/4 or 5 and people have a low or high willingness to share. The extremes were chosen to get insights into maximum effects. The results show that if automated vehicles and sharing are accepted, it is likely that there will be considerable changes in mobility patterns and traffic performance, with both positive and problematic effects.
AB - This paper presents a model specifically developed to explore the mobility impacts of connected and automated driving and shared mobility. It is an explorative iterative model that uses an elasticity model for destination choice, a multinomial logit model for mode choice and a network fundamental diagram to assess traffic impacts. To the best of the authors’ knowledge, it is the first model that combines a network fundamental diagram with choice models. A second contribution is the inclusion of automated vehicles, automated (shared) taxis, automated shared vans and new parking concepts in the model as well as the way in which they affect mobility choices and traffic conditions. The insights into the direct mobility impacts are the third contribution. The short computation time of the model enables exploration of large numbers of scenarios, sensitivity analyses and assessments of the impacts of interventions. The model was applied in a case study of the Dutch Province of North-Holland, in which the potential impacts of automated and shared vehicles and mitigating interventions were explored. In this case study, four extreme scenarios were explored, in which 100% of the vehicles have SAE-level 3/4 or 5 and people have a low or high willingness to share. The extremes were chosen to get insights into maximum effects. The results show that if automated vehicles and sharing are accepted, it is likely that there will be considerable changes in mobility patterns and traffic performance, with both positive and problematic effects.
KW - Automated driving
KW - Mobility impacts
KW - Mode choice
KW - Network fundamental diagram
KW - Shared mobility
UR - http://www.scopus.com/inward/record.url?scp=85086823010&partnerID=8YFLogxK
U2 - 10.18757/ejtir.2019.19.4.4282
DO - 10.18757/ejtir.2019.19.4.4282
M3 - Article
SN - 1567-7141
VL - 19
SP - 291
EP - 309
JO - European Journal of Transport and Infrastructure Research
JF - European Journal of Transport and Infrastructure Research
IS - 4
ER -