Let's Connect
Follow Us
Watch Us
(+385) 1 2380 262
journal.prometfpz.unizg.hr
Promet - Traffic&Transportation journal

Accelerating Discoveries in Traffic Science

Accelerating Discoveries in Traffic Science

Login Submit

PDF
PUBLISHED
20.04.2018
DOI
https://doi.org/10.7307/ptt.v30i2.2500
ISSUE
2018 (Vol 30), Issue 2
LICENSE
Copyright (c) 2024 Murat Dörterler, Ömer Faruk Bay
Creative Commons 4.0 logo
This work is licensed under a
Creative Commons Attribution-NonCommercial-
NoDerivatives 4.0 International License.

Neural Network Based Vehicular Location Prediction Model for Cooperative Active Safety Systems

Authors:

Murat Dörterler
Gazi University, Faculty of Technology, Department of Computer Engineering

Ömer Faruk Bay
Gazi University, Faculty of Technology, Department of Electrical - Electronics Engineering

Keywords:cooperative active safety systems, inter-vehicular communication, vehicular location prediction, artificial neural networks,

Abstract

Safety systems detect unsafe conditions and provide warnings for travellers to take action and avoid crashes. Estimation of the geographical location of a moving vehicle as to where it will be positioned next with high precision and short computation time is crucial for identifying dangers. To this end, navigational and dynamic data of a vehicle are processed in connection with the data received from neighbouring vehicles and infrastructure in the same vicinity. In this study, a vehicular location prediction model was developed using an artificial neural network for cooperative active safety systems. The model is intended to have a constant, shorter computation time as well as higher accuracy features. The performance of the proposed model was measured with a real-time testbed developed in this study. The results are compared with the performance of similar studies and the proposed model is shown to deliver a better performance than other models.

References

  1. Kawashima H. Japanese perspective of driver information systems. Transportation. 1990;17(3): 263-284.

    Baldessari R, Bödekker B, Deegener M, et al. Car to Car Communication Consortium Manifesto: Overview of the C2C-CC System. Car to Car Communication Consortium; 2007.

    Harding J, Powell G, Yoon R, et al. Vehicle-to-vehicle communications: Readiness of V2V technology for application. Washington, DC: National Highway Traffic Safety Administration; 2014. p. 1-14.

    Jarasuniene A, Jakubauskas G. Improvement of road safety using passive and active intelligent vehicle safety systems. Transport. 2007;22(4): 284-289.

    Andersen J, Kalra N, Stanley K, Sorensen P, Samaras C, Oluwatola O. Autonomous vehicle technology. 1st ed. Santa Monica, CA: RAND; 2016.

    Misener JA. Vehicle-infrastructure integration (VII) and safety: rubber and radio meets the road in California. Intellimotion. 2005:11(2): 1-3.

    Vanajakshi L, Subramanian SC, Sivanandan R. Travel time prediction under heterogeneous tra

Show more
How to Cite
Dörterler, M. (et al.) 2018. Neural Network Based Vehicular Location Prediction Model for Cooperative Active Safety Systems. Traffic&Transportation Journal. 30, 2 (Apr. 2018), 205-215. DOI: https://doi.org/10.7307/ptt.v30i2.2500.

SPECIAL ISSUE IS OUT

Innovation and New Technologies in Transport and Logistics

Guest Editor: Eleonora Papadimitriou, PhD

Editors: Marko Matulin, PhD, Dario Babić, PhD, Marko Ševrović, PhD

RECENT PAPERS

Browse through the selection of our recent research
Vessel Trajectory Prediction Method Based on the Time Series Data Fusion ModelResearch on the Location of Front-Loading Warehouses Based on the Reverse Logistics of Fresh Agricultural ProductsExploring and Comparing Spatial Clusters of Pedestrian Night-Time Crashes Based on Different Street Lighting Conditions at County Spatial UnitUrban Microcirculation Traffic Network Planning Method Based on Fast Search Random Tree Algorithm

Accelerating Discoveries in Traffic Science |
2024 © Promet - Traffic&Transportation journal