Highlights Tailored machine learning framework combining the merits of multi-source data. Ensemble learning model with multi-grained scanning and sliding windows method. Two-stage zero-shot learner for transport network flow estimation. Feature exaction approach for transport network flow estimation. Spatial-temporal feature extraction method for cellphone location data.
Abstract This study deals with urban transport network flow estimation based on Cellphone Location (CL) and License Plate Recognition (LPR) data. We first propose two methods to filter CL data and extract the spatio-temporal traffic features for a specific road segment. A tailored machine learning approach is developed, including two components: a tangible multi-grained scanning ensemble learning model and a novel two-stage zero-shot learner. The former aims to estimate traffic flow on a single link with both filtered CL data, extracted spatio-temporal traffic features, and LPR data by incorporating the unique merits thereof. The latter is capable of estimating traffic flow on those links with only CL data by considering the spatial features of these links and relevant land-use information. Finally, case studies are analysed to demonstrate the impressive performance of the tailored machine learning approach.
A tailored machine learning approach for urban transport network flow estimation
Tramsportation Research, Part C: Emerging Technologies ; 108 ; 130-150
2019-09-07
21 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Traffic flow forecast with urban transport network
IEEE | 2016
|Urban road network unknown flow estimation method and system based on transfer learning model
Europäisches Patentamt | 2021
|Europäisches Patentamt | 2023
|Estimation of transport CO2 emissions using machine learning algorithm
Elsevier | 2024
|