TY - GEN
T1 - On the Impact of Bus Dwelling on Macroscopic Fundamental Diagrams
AU - Xu, Guanhao
AU - Gayah, Vikash V.
N1 - Publisher Copyright:
© ASCE.
PY - 2024
Y1 - 2024
N2 - Network macroscopic fundamental diagrams (MFDs) have recently been shown to exist in real-world urban traffic networks. When present, MFDs can be used to model traffic dynamics within an urban network by dividing the network into a set of spatially compact homogeneous regions and tracking the average level of congestion in each region. Existing analytical methods to estimate MFD mostly focus on the behavior of a single type of vehicle and do not capture the patterns of mixed traffic (e.g., cars and buses). The existence of buses matters since a bus will block the movements of other vehicles when it dwells at the bus stop. This paper proposes an analytical method to estimate the impact of bus dwelling on a network’s MFD based on the network’s geometric features, traffic control strategies, and bus operation parameters, and validates the performance of the proposed method using simulations based on microscopic traffic models. Comparisons of the analytical and simulation results show that the proposed analytical method can generally provide a good estimate of the lower bound and upper bound of the network’s MFD.
AB - Network macroscopic fundamental diagrams (MFDs) have recently been shown to exist in real-world urban traffic networks. When present, MFDs can be used to model traffic dynamics within an urban network by dividing the network into a set of spatially compact homogeneous regions and tracking the average level of congestion in each region. Existing analytical methods to estimate MFD mostly focus on the behavior of a single type of vehicle and do not capture the patterns of mixed traffic (e.g., cars and buses). The existence of buses matters since a bus will block the movements of other vehicles when it dwells at the bus stop. This paper proposes an analytical method to estimate the impact of bus dwelling on a network’s MFD based on the network’s geometric features, traffic control strategies, and bus operation parameters, and validates the performance of the proposed method using simulations based on microscopic traffic models. Comparisons of the analytical and simulation results show that the proposed analytical method can generally provide a good estimate of the lower bound and upper bound of the network’s MFD.
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U2 - 10.1061/9780784485521.054
DO - 10.1061/9780784485521.054
M3 - Conference contribution
AN - SCOPUS:85197250747
T3 - International Conference on Transportation and Development 2024: Transportation Planning, Operations, and Transit - Selected Papers from the International Conference on Transportation and Development 2024
SP - 599
EP - 612
BT - International Conference on Transportation and Development 2024
A2 - Wei, Heng
PB - American Society of Civil Engineers (ASCE)
T2 - International Conference on Transportation and Development 2024: Transportation Planning, Operations, and Transit, ICTD 2024
Y2 - 15 June 2024 through 18 June 2024
ER -