场站到达预测的机器学习辅助宏观模拟

IF 2.6 Q3 TRANSPORTATION
Niloofar Minbashi, Hans Sipilä, Carl-William Palmqvist, Markus Bohlin, Behzad Kordnejad
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引用次数: 4

摘要

提高欧洲单一货车运输的模式份额需要提高货场之间货运列车的可靠性和可预测性。在本文中,我们提出了一种新的机器学习辅助宏观模拟框架,以提高码离和码到的可预测性。通过随机森林算法应用机器学习来实现码偏离预测模型。与以前的车场模拟方法相比,我们的车场偏离预测方法不那么复杂,预测准确率为92%。然后,出发预测有助于宏观模拟网络模型(PROTON)预测到达后续码的情况。我们使用瑞典两个主要船厂之间的数据测试了这个框架;我们的实验表明,当前的框架比时间表和基本的机器学习到达预测模型表现得更好,R2为0.48,平均绝对误差为35分钟。我们目前的结果表明,包括堆场和网络交互在内的方法组合,可以为复杂的堆场到达时间预测任务产生有竞争力的结果,这可以分别帮助堆场操作员和基础设施管理人员进行堆场重新规划过程和堆场网络协调。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Machine learning-assisted macro simulation for yard arrival prediction

Increasing the modal share of the single wagonload transport in Europe requires improving the reliability and predictability of freight trains running between the yards. In this paper, we propose a novel machine learning-assisted macro simulation framework to increase the predictability of yard departures and arrivals. Machine learning is applied through a random forest algorithm to implement a yard departure prediction model. Our yard departure prediction approach is less complex compared to previous yard simulation approaches, and provides an accuracy level of 92% in predictions. Then, departure predictions assist a macro simulation network model (PROTON) to predict arrivals to the succeeding yards. We tested this framework using data from a stretch between two main yards in Sweden; our experiments show that the current framework performs better than the timetable and a basic machine learning arrival prediction model by R2 of 0.48 and a mean absolute error of 35 minutes. Our current results indicate that combination of approaches, including yard and network interactions, can yield competitive results for complex yard arrival time prediction tasks which can assist yard operators and infrastructure managers in yard re-planning processes and yard-network coordination respectively.

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来源期刊
CiteScore
7.10
自引率
8.10%
发文量
41
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