University of Twente Student Theses
Short-term prediction and visualization of parking area states in real-time : a machine learning approach
Provoost, Jesper C. (2019) Short-term prediction and visualization of parking area states in real-time : a machine learning approach.
|
PDF
8MB |
| Abstract: | Public road authorities and mobility service providers need information about future traffic states to act pro-actively upon the dynamics of the urban road network. In this research, a machine learning methodology for predicting influx, outflux and occupancy rate of parking areas on a horizon of up to 60 minutes has been developed. Based on a thorough process applied to a real-world case in the city of Arnhem, the feed-forward neural network turns out to outperform the random forest on all assessed performance measures, even though the differences are small and both are outperforming a naive (seasonal random walk) model. Overall, the selected configuration shows a performance gain of 235% in comparison with the naive model. Furthermore, it is shown that predicting the in- and outflux is a far more difficult task than predicting occupancy rate. Results also suggest that relatively little training data is needed to maintain satisfactory predictive performance. This is a promising finding regarding potential expansion of the system towards other parking areas, especially in cases where data availability is substandard. During real-time deployment, the model shows to perform 172% better than the naive model. As a result, it can provide valuable information for pro-active traffic management. |
| Item Type: | Essay (Bachelor) |
| Clients: | DAT.mobility, Deventer, Netherlands |
| Faculty: | EEMCS: Electrical Engineering, Mathematics and Computer Science |
| Subject: | 54 computer science, 55 traffic technology, transport technology |
| Programme: | Creative Technology BSc (50447) |
| Link to this item: | https://purl.utwente.nl/essays/78687 |
| Export this item as: | BibTeX EndNote HTML Citation Reference Manager |
Show download statistics for this publication
Show download statistics for this publicationRepository Staff Only: item control page