Abstract
In this paper, the traffic equilibriums for mixed traffic flows of human-driven vehicles (HDV) and connected and autonomous vehicles (CAV) under a tradable credit scheme (TCS) are established and formulated as two variational inequality (VI) problems with exogenous and endogenous CAV penetration rate, respectively. A modified Lagrangian dual (MLD) method embedded with a revised Smith’s route-swapping (RSRS) algorithm is proposed to solve the problems. Based on the numerical analysis, the impacts of CAV penetration and the extra expense of using a CAV on network performance are investigated. A novel driveway management, autonomous vehicle/credit charge (AVCC) link, is put forward to improve the efficiency of TCS. Under the TCS with exogenous CAV penetration rate, a logit-based model is applied to describe the stochastic user equilibrium for mixed traffic flow. It is found that the penetration of CAV gives rise to a better network performance and it can be further improved by the deployment of AVCC link. Under the TCS with endogenous penetration rate, a nested-logit model is applied to describe travelers’ choices of vehicle types and routes. It is found that the deployment of AVCC links can slow down the decline rate of CAV penetration with increasing expense and thus ensure a lower average travel time for CAVs. In both cases, the deployment of AVCC links can stimulate credit trading and drop down its unit price.
Highlights
Due to the potential benefits to transportation systems, autonomous vehicle (AV) technologies have gained tremendous amount of attention among researchers, industry leaders, and policy-makers in recent years
After the deployment of autonomous vehicle/credit charge (AVCC) link, it can be seen from Figure 3(b) that the degree of being better off for all users is larger than that without AVCC link, which implies the deployment of AVCC link can improve the efficiency of a given tradable credit scheme (TCS)
It is interesting to note that connected and autonomous vehicles (CAV) users benefit much more than human-driven vehicles (HDV) users compared with the case in Figure 3(a), especially when the CAV penetration is low
Summary
Due to the potential benefits to transportation systems, autonomous vehicle (AV) technologies have gained tremendous amount of attention among researchers, industry leaders, and policy-makers in recent years. Countries including the United States, Australia, and China [5,6,7] have issued regulations related to road testing of AV to facilitate its development. All of these suggest that the ascending moment of AV technologies is coming. Levin and Boyles [10] showed that even if a small proportion of HDVs are replaced by CAVs, the redistributed network flows can reduce average travel time significantly due to the enhanced capacity. In doing so can we detect the potential problems and take corresponding measures beforehand
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