Yongwu Liu’s research while affiliated with The Hong Kong Polytechnic University and other places

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Publications (2)


An Exact Method for Vehicle Routing Problem with Backhaul Discounts in Urban Express Delivery Network
  • Article
  • Full-text available

June 2024

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11 Reads

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1 Citation

Cleaner Logistics and Supply Chain

Jinqiu Zhao

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Yongwu Liu

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Jinwei Zhang

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[...]

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Multi-rider distance and time constraint algorithm.
Reservation order matching algorithm.
Real-time order matching algorithm.
An example of the one-to-many matching process
Two-stage collaborative matching process

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A two-stage dispatching approach for one-to-many ride-sharing with sliding time windows

Neural Computing and Applications

Ride-sharing has transformed people’s travel habits with the development of various ride-sharing platforms, which can enhance the utilization of transportation resources, alleviate traffic congestion, and reduce carbon emissions. However, the development of a general and efficient matching framework is challenging due to the dynamic real-time conditions and uncertainty of ride-sharing problems in the real world. Additionally, previous research has identified limitations in terms of model practicability and algorithmic solution speed. To address these issues, a two-stage dispatching approach for one-to-many ride-sharing with sliding time windows is proposed. The dynamic ride-sharing problem is formally defined, and an integer programming model is constructed to solve it. A multi-rider distance and time constraint algorithm uses a distance matrix and sliding time windows to preprocess data before matching is proposed, thereby optimizing data quality and improving computational efficiency. The ride-sharing process is divided into a reservation order matching stage based on path similarity and a real-time order matching stage based on path distance degree. A two-stage collaborative mechanism is designed to guide the collaboration of the two stages. Furthermore, numerical experiments are conducted using two real-world datasets from developing and developed country regions to verify the efficiency and practicability of the proposed approach.