Abstract
This manuscript investigated coordinated intersection signal design problem for mixed traffic flow of Human-Driven Vehicles (HDVs) and Connected and Autonomous Vehicles (CAVs). Two main macroscopic impact of the mixed flow on signal setting are considered: saturation flow rate and the platoon dispersion. In order to capture the traffic flow operational characteristics on coordinated intersections, three locations, namely entrance location where the loop detector was located at, and upstream intersection and downstream intersection were defined. Two types of vehicle cumulative curves, namely cumulative arrival profile and cumulative departure profile were constructed. The mixed-flow traffic dynamics were analyzed, and the arrival-departure curves relationship was derived using a combination of Newell car-following and Akcelik acceleration model. A mixed-flow platoon dispersion model was proposed to describe the vehicle’s progression between two locations. Due to the nonlinear nature of the problem, a particle swarm optimization (PSO) method was employed to obtain the optimal signal parameters, including the cycle length, green duration, and optimal offset. The algorithm was implemented and validated in a case study involving two intersections, with the demand formulated and simulated by the Markov chain. The results showed that the proposed model could effectively decrease delays when compared with current signal control methods.
Highlights
Connected and autonomous vehicle (CAV) technologies endow great potentials for future transportation systems
CAV technologies can be decomposed into connected vehicles (CV) and autonomous vehicles (AV)
We present the method to solve the first step problem, i.e. derive the departure profile at upstream intersection i, i.e. Di,W,Human-Driven Vehicles (HDVs)(t) and Di,W,CAV(t), with the loop detector data installed at the entrance location
Summary
Connected and autonomous vehicle (CAV) technologies endow great potentials for future transportation systems. The numerical scenario was common four-phase but can be extended to other cases This manuscript investigated coordinated intersection signal design problem for mixed traffic flows of Human-Driven Vehicles and Connected and Autonomous Vehicles. The startup loss time increases linearly with the speed limit, due to the fact that the acceleration duration increases when the maximum acceleration is fixed This conclusion should not be generalized since acceleration profiles may differ from vehicle to vehicle. This is an encouraging result, as a signal could work throughout a flow mixture range and, at the same time, the benefits are not inferior to the signal-free models
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