原文传递
Weibull Distribution-Based Neural Network for Stochastic Capacity Estimation
| 题名: | Weibull Distribution-Based Neural Network for Stochastic Capacity Estimation |
| 正文语种: | eng |
| 作者: | Wang, Yunshan;Cheng, Qixiu;Wang, Meng;Liu, Zhiyuan |
| 作者单位: | Southeast Univ Sch Transportat 2 Southeast Univ Rd Nanjing 210000 Peoples R China;Hong Kong Polytech Univ Dept Logist & Maritime Studies Hung Hom Hong Kong Peoples R China;Huawei Technol Co Ltd 3 Xinxi Rd Beijing 100000 Peoples R China;Southeast Univ Sch Transportat 2 Southeast Univ Rd Nanjing 210000 Peoples R China |
| 摘要: | Capacity is an important traffic parameter, extending nonnegligible influence on road network planning, traffic management, and traffic state prediction. The stochasticity of capacity is widely accepted considering the stochastic nature of traffic flow. Previous studies studied stochastic capacity based on long-term observations, lasting for months or even years, at one single site. On the other hand, datadriven methods were applied by researchers to evaluate the impacts of external factors on capacity, in which, however, capacity was always viewed as deterministic. To fully exert the advantages of data-driven methods, this paper proposes a Weibull-distribution-based neural network for capacity estimation on freeways, considering both stochastic nature and external factors. Extremely long-term observation at one single site is no longer essential because this method considers different scenes at the same time and is able to integrate the information automatically. Furthermore, the model has a certain generalization performance. No matter which influencing factor is adjusted, a new distribution can be obtained. The model is verified by open-source data from the California Department of Transportation Performance Measurement System (PeMS) in this paper. Eight easily-fetched explanatory variables are introduced into the model. The mean absolute percentage error between predicted median capacities and observed ones is 0.29 and 70%-80% of observed median capacities are within the prediction band. (C) 2022 American Society of Civil Engineers. |
| 出版年: | 2022 |
| 期刊名称: | Journal of Transportation Engineering |
| 卷: | 148 |
| 期: | 4 |
| 页码: | 04022009.1-04022009.9 |
相关文献
- Modeling Link-Level Crash Frequency Using Integrated Geospatial Land Use Data and On-Network Characteristics
- The lighter side of OSHA
- Estimation of lane-level travel time distributions under a connected environment
- Physics-Informed Spatiotemporal Learning Framework for Urban Traffic State Estimation
- Artificial Neural Network–Based Traffic State Estimation Using Erroneous Automated Sensor Data
- Deterministic and Stochastic Freeway Capacity Analysis Based on Weather Conditions
检索历史
应用推荐
