Impacts of Shared Autonomous Vehicles on the Travelers’ Mobility

2019 6th International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS) Pub Date : 2019-06-05 DOI:10.1109/MTITS.2019.8883392

Jamil Hamadneh, D. Esztergár-Kiss

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引用次数: 19

Abstract

In this paper agent-based modeling was used, and simulation of activities were conducted to study both the existing behavior of travelers and the behavior of travelers considering shared autonomous vehicles (SAV). In the modeling framework distance, travel time, travel cost, fleet size and capacities of vehicle types were used as main parameters. Additionally, we created user groups (long commute drivers, car rider, high class income), who are more willing to use SAV. Simulations of the daily plan of activities were performed using Multi-agent Transport simulation tool (MATSim), which applies the concept of co-evolutionary algorithm. Travel plans of around 3000 persons were simulated, and fleet sizes of 20, 50, 100 SAVs were examined. The results showed that 1 SAV can replace 8 conventional vehicles with acceptable average waiting time ranging from 7-10 minutes and usage of 4-seats (shared trip). The utility function that were used in the study showed that the travel time decreased by 17% and the travel distance decreased by 20% after 100 iterations performed on the existing plans. Moreover, the long commuter and high-income travelers can be served by 20 SAV with waiting time of 10 minutes and trip duration of 20 minutes. In this case 1 SAV can replace 6 conventional cars with acceptable average waiting time 10-15 minutes.

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共享自动驾驶汽车对旅客出行的影响

本文采用基于智能体的建模方法，通过对活动的仿真，研究了出行者的既有行为以及出行者在考虑共享自动驾驶汽车时的行为。在建模框架中，以距离、出行时间、出行成本、车队规模和车型容量为主要参数。此外，我们还创建了更愿意使用SAV的用户群体(长途通勤司机、汽车乘客、高收入阶层)。利用多智能体传输仿真工具(Multi-agent Transport simulation tool, MATSim)对日常活动计划进行仿真，该工具应用了协同进化算法的概念。模拟了约3000人的旅行计划，并研究了20、50和100架sav的机队规模。结果表明，1辆SAV可替代8辆传统车辆，平均等待时间为7-10分钟，可接受的使用4个座位(共享出行)。研究中使用的效用函数表明，在现有计划上进行100次迭代后，行程时间减少了17%，行程距离减少了20%。此外，通勤时间较长、收入较高的旅客可乘坐20辆SAV，等待时间为10分钟，行程为20分钟。在这种情况下，1辆SAV可以代替6辆传统汽车，平均等待时间为10-15分钟。

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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来源期刊

2019 6th International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS)

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