原文传递
Improved Approach for Forecasting Extra-Peak Hourly Subway Ridership at Station-Level Based on LASSO
| 题名: | Improved Approach for Forecasting Extra-Peak Hourly Subway Ridership at Station-Level Based on LASSO |
| 正文语种: | eng |
| 作者: | Wei, Jie;Cheng, Yanqiu;Yu, Lijie;Zhang, Shuang;Chen, Kuanmin |
| 作者单位: | Changan Univ Coll Transportat Engn Dept Traff Engn Middle Sect Nan Erhuan Rd Xian 710064 Peoples R China;Changan Univ Coll Transportat Engn Dept Traff Engn Middle Sect Nan Erhuan Rd Xian 710064 Peoples R China;Changan Univ Coll Transportat Engn Dept Traff Engn Middle Sect Nan Erhuan Rd Xian 710064 Peoples R China;Changan Univ Coll Transportat Engn Dept Traff Engn Middle Sect Nan Erhuan Rd Xian 710064 Peoples R China;Changan Univ Coll Transportat Engn Dept Traff Engn Middle Sect Nan Erhuan Rd Xian 710064 Peoples R China |
| 关键词: | Extra-peak hourly ridership (EPHR);Station level;Least absolute shrinkage and selection operator (LASSO);Relationship model |
| 摘要: | Prediction of the extra-peak hourly ridership (EPHR) is directly related to the capacity design of subway station service facilities. In the traditional station-level EPHR prediction process, the predicted value is simply the result of the multiplication of the predicted peak hourly ridership (PHR) value by a unified extra-peak hour factor (EPHF). However, the station-level EPHR predicted by this method may be underestimated because the PHR prediction results are extracted from a line-level prediction value, rather than the station-level value. Moreover, while the existing EPHF is always determined by China's Code for Design of Metro, it is too simple and unrefined to be applicable. The proposed station-level EPHR prediction approach exhibits significantly improved accuracy and applicability via the introduction of a least absolute shrinkage and selection operator (LASSO)-based feature selection method. The historical ridership and related attribute data of the stations are used to construct relationship models for the peak deviation coefficient (PDC) and the EPHF to make the model more explanatory. As a case study, this approach was evaluated on a real-world, large-scale passenger flow dataset from Xi'an, China, and compared with the results of the traditional method. The results indicate that the EPHR prediction accuracies of 10% to 51% of the stations are improved and the corresponding mean absolute percentage error (MAPE) is reduced by 6%-30%, as compared with the traditional method, suggesting wider applicability and higher precision for station-level prediction. A supplementary comparison with two other feature selection methods further verifies that the LASSO-based approach exhibits higher accuracy and applicability. |
| 出版年: | 2021 |
| 期刊名称: | Journal of Transportation Engineering |
| 卷: | 147 |
| 期: | 11 |
相关文献
- Clustering Analysis of Ridership Patterns at Subway Stations: A Case in Nanjing, China
- Decision Tree Based Station-Level Rail Transit Ridership Forecasting
- Subway Station Accessibility and Its Impacts on the Spatial and Temporal Variations of Its Outbound Ridership
- Prediction of Urban Rail Transit Ridership under Rainfall Weather Conditions
- Network and station-level bike-sharing system prediction: a San Francisco bay area case study
- Spatiotemporal Heterogeneity Analysis of Influence Factor on Urban Rail Transit Station Ridership
检索历史
应用推荐
