Abstract
At present, the existing dynamic OD estimation methods in an urban rail transit network still need to be improved in the factors of the time-dependent characteristics of the system and the estimation accuracy of the results. This study focuses on predicting the dynamic OD demand for a time of period in the future for an urban rail transit system. We propose a nonlinear programming model to predict the dynamic OD matrix based on historic automatic fare collection (AFC) data. This model assigns the passenger flow to the hierarchical flow network, which can be calibrated by backpropagation of the first-order gradients and reassignment of the passenger flow with the updated weights between different layers. The proposed model can predict the time-varying OD matrix, the number of passengers departing at each time, and the travel time spent by passengers, of which the results are shown in the case study. Finally, the results indicate that the proposed model can effectively obtain a relatively accurate estimation result. The proposed model can integrate more traffic characteristics than traditional methods and provides an effective and hierarchical passenger flow estimation framework. This study can provide a rich set of passenger demand for advanced transit planning and management applications, for instance, passenger flow control, adaptive travel demand management, and real-time train scheduling.
Highlights
As an important part of passenger flow prediction, in an urban rail transit system, origin-destination (OD) matrix estimation plays an important role, which provides basic data for passenger flow assignment
A nonlinear programming model is proposed to conduct real-time OD matrix estimation for an urban rail transit system based on historic automatic fare collection (AFC) data in this paper
Based on the flow-oriented prediction formulation, this deep learning modeling approach can simultaneously estimate different levels of unobserved or partially observed passenger flow variables. is model is applicable to the estimation of the OD matrix of passenger flow with AFC data, unlike other traditional estimation methods based on traffic counts
Summary
As an important part of passenger flow prediction, in an urban rail transit system, origin-destination (OD) matrix estimation plays an important role, which provides basic data for passenger flow assignment. The programming model proposed in this paper can estimate a hierarchical traveling decision process for passengers in an urban rail transit system, including the departure time choice at the origin, the path choice, and the corresponding arrival time at the destination. A nonlinear programming model is proposed to conduct real-time OD matrix estimation for an urban rail transit system based on historic automatic fare collection (AFC) data in this paper. Based on the flow-oriented prediction formulation, this deep learning modeling approach can simultaneously estimate different levels of unobserved or partially observed passenger flow variables. Is model is applicable to the estimation of the OD matrix of passenger flow with AFC data, unlike other traditional estimation methods based on traffic counts.
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