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Title: A Unifiable Multi-Commodity Kinematic Wave Model for Traffic Systems with Tradable Right-Of-Way
Accession Number: 01698087
Record Type: Component
Abstract: In this study, the authors are concerned with the traffic flow system on a multi-lane road, where vehicles with heterogeneous values-of-time (VOTs) can trade their rights-of-way (ROWs) so as to minimize individuals’ travel costs. The resulting traffic flow violates the First-In-First-Out (FIFO) principle, since vehicles with higher VOTs would travel faster by paying those with lower VOTs. A novel multi-commodity kinematic wave model is developed for such a system based on the following five assumptions: (A1) Travel speeds of vehicles not participating in the trade scheme and average speed of all vehicles in the system are not impacted; (A2) The total budget is balanced; (A3) The system reaches user equilibrium, and no driver can reduce his/her cost by unilaterally change his/her choice in speed and payment; (A4) The total cost is minimized, and the system reaches the system optimal state; (A5) The benefits of the scheme are shared among all users. From these assumptions the authors first derive a unifiable fundamental diagram, in which the relative speed ratios of different commodities are constant and proportional to the square root of the VOTs. The authors show that the scheme is always Pareto-improving when the system optimality is achieved. The authors analytically solve the Riemann problem for a traffic system with three commodities, in which two groups of users with different VOTs participate in the scheme, and a third group does not participate. The authors demonstrate that different commodities would react differently to shock and rarefaction waves. Finally, the authors conclude the study with future extensions.
Supplemental Notes: This paper was sponsored by TRB committee AHB45 Standing Committee on Traffic Flow Theory and Characteristics.
Report/Paper Numbers: 19-05256
Language: English
Corporate Authors: Transportation Research BoardAuthors: Malik, PratiikJin, Wen-LongLloret-Batlle, RogerJayakrishnan, RPagination: 20p
Publication Date: 2019
Conference:
Transportation Research Board 98th Annual Meeting
Location:
Washington DC, United States Media Type: Digital/other
Features: Figures; References
(16)
TRT Terms: Subject Areas: Highways; Operations and Traffic Management; Safety and Human Factors
Source Data: Transportation Research Board Annual Meeting 2019 Paper #19-05256
Files: TRIS, TRB, ATRI
Created Date: Dec 7 2018 9:45AM
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