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荷兰埃因霍温理工大学廖飞雄博士学术讲座通知

发布时间: 2018/12/18 15:42:36     点击次数:次   打印本页

【北航经管学术论坛】荷兰埃因霍温理工大学廖飞雄博士学术讲座通知

题目:Recent progress in multi-state supernetwork modeling for travel demand analysis

主讲人:廖飞雄博士,荷兰埃因霍温理工大学

时间:2018年12月19日(周三)下午16:00-17:30

地点:新主楼A716

摘要:This talk includes three model extensions developed with co-workers centered at multi-state supernetwork modeling for travel demand analysis. Motivated by the potentially large share of shared autonomous vehicles (SAVs) in the near future, the first topic concerns an activity-based bi-level system optimal model inclusive of a hub-based relocation strategy to moderate the supply and demand of SAVs, in which the lower-level captures the travelers’ activity-travel scheduling behavior by a tolerance-based dynamic activity-travel assignment (DATA) model and the upper-level determines the fleet size, initial distribution, and hubs of SAVs. To address the difficulty of scalability in the family of DATA models, the second topic discusses an improved column generation algorithm for speeding-up DATA. The algorithm adopts a varied temporal resolution scheme, combining exploration and exploitation strategies, to assign flows to narrow time regions rather than to the whole time horizon. The third model extension is about a new framework of dynamical activity-travel rational adjustment process in multi-state supernetworks based on a needs-based theory. This formalism couples dynamic activity generation, activity-travel scheduling, and traffic flow evolution in a strong sense, and offers appealing explanations for day-to-day traffic dynamics and equilibria.

主讲人简介:

Feixiong Liao is an assistant professor (tenured) at the Urban Planning Group of Eindhoven University of Technology (TU/e). His fields of expertise include urban planning and transport studies. He received his Ph.D. from TU/e 2013. During his Ph.D. studies, he worked with a large consortium to examine how accessibility in the Netherlands' Randstad region can be improved by implementing synchronization strategies. His current research activities are focused on the developments of a large-scalemodel system of urban transportation planning.