Fluid-Model-Based Car Routing for Modern Ridesharing Systems

Proceedings of the 2017 ACM SIGMETRICS / International Conference on Measurement and Modeling of Computer Systems Pub Date : 2017-06-05 DOI:10.1145/3078505.3078595

Anton Braverman, J. Dai, Xin Liu, Lei Ying

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引用次数: 8

Abstract

We consider a closed queueing network model of ridesharing systems such as Didi Chuxing, Lyft, and Uber. We focus on empty-car routing, a mechanism by which we control car flow in the network to optimize system-wide utility functions, e.g. the availability of empty cars when a passenger arrives. We establish both process-level and steady-state convergence of the queueing network to a fluid limit in a large market regime where demand for rides and supply of cars tend to infinity, and use this limit to study a fluid-based optimization problem. We prove that the optimal network utility obtained from the fluid-based optimization is an upper bound on the utility in the finite car system for any routing policy, both static and dynamic, under which the closed queueing network has a stationary distribution. This upper bound is achieved asymptotically under the fluid-based optimal routing policy. Simulation results with real-word data released by Didi Chuxing demonstrate that the utility under the fluid-based optimal routing policy converges to the upper bound with a rate of 1/√N, where N is the number of cars in the network.

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现代拼车系统中基于流体模型的车辆路径选择

我们考虑了滴滴出行、Lyft和优步等拼车系统的封闭排队网络模型。我们关注的是空车路由，这是一种控制网络中车辆流量以优化系统范围效用函数的机制，例如，当乘客到达时空车的可用性。我们建立了在乘车需求和汽车供给趋于无穷大的大市场条件下，排队网络的过程级和稳态收敛到一个流体极限，并利用这个极限研究了一个基于流体的优化问题。我们证明了基于流体的优化得到的网络最优效用是有限车辆系统中任何路由策略(静态和动态)效用的上界，在该上界下，封闭排队网络具有平稳分布。在基于流体的最优路由策略下，该上界是渐近实现的。滴滴出行发布的实时数据仿真结果表明，基于流体的最优路由策略下的效用收敛到上界的速率为1/√N，其中N为网络中的汽车数量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2017 ACM SIGMETRICS / International Conference on Measurement and Modeling of Computer Systems

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