Optimizing Order Dispatch for Ride-Sharing Systems
2019 28th International Conference on Computer Communication and Networks (ICCCN)(2019)
摘要
Ride-sharing companies such as Didi and Uber have served billions of passenger requests from all over the world. The efficiency of the ride-sharing is highly depended on the order dispatch system which assigns passenger requests to idle drivers. However, designing such a dispatch system is challenging because of the spatial-temporal dynamic of passenger requests, and the trade-off between the benefits for passengers and drivers. Existing order dispatch systems use either a system-assigning approach or a driver-grabbing approach. However, either approach has its own flaws. In this paper, we propose to combine the two existing approaches and jointly considers both passengers'' and drivers'' interest. In our approach, a passenger request is broadcast to the drivers in a dispatch region chosen by the system. The size of the dispatch region could iteratively increase until the request is accepted. We formulate an optimization problem to determine the increase speed of the dispatch region. Drivers'' idle driving distances and passengers'' waiting time are jointly considered. We propose a dynamic programming algorithm to optimally solve the increase ratio of the size of the dispatch region for a case that different dispatch regions are not overlapped. We further investigate the overlapped case and modify the dynamic programming algorithm correspondingly. We provide a discussion on the effect of the overlapping in a spatial case, where the driver and passenger locations are uniformly distributed. Experiments are conducted based on the synthetic dataset and the real-world dataset from Didi Inc. Results show that our approach can effectively reduce the expected driver pickup distance and keep the dispatching time short, which balances both passengers'' and drivers'' interests.
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关键词
dynamic programming algorithm,dispatch region,passenger locations,dispatching time,ride-sharing systems,ride-sharing companies,passenger request,order dispatch system,system-assigning approach,driver-grabbing approach,Didi,Uber,spatial-temporal dynamic,optimization problem,driver pickup distance
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