Traffic Analysis Model with Bayesian Network and Social Media Data: D100 Highway Travel İnformation System
Year 2023,
Volume: 8 Issue: 1, 48 - 61, 10.08.2023
Cihan Çiftçi
,
Halim Kazan
Abstract
The traffic problem in Intelligent Transportation Systems has recently become a very important issue. Thanks to Intelligent Transportation Systems, the formation of large amounts of traffic data has led to the formation of data-oriented models. There is a growing interest in predicting traffic measures by modeling complex scenarios based on big data with data mining and machine learning methods. In this study, traffic events from Twitter traffic notifications and vehicle density from sensor data were obtained. Traffic density analysis and traffic incident analysis were performed with the machine learning method. In the analysis of traffic incidents, 36627 traffic incidents were digitized. This data was separated into categories including type of accident; day; month; year; season; left, right or middle lane; and vehicle failure, maintenance-repair work and accident notification. Between 2016 and 2020, 1400 daily vehicle data logs were obtained from the sensor data located at 59 points of the D100 highway. Traffic density and parameters affecting traffic incidents on the Anatolian and European sides of the D100 highway in Istanbul were determined. Traffic density and accident event models were designed with the Bayesian network approach. In the sensitivity analysis of the model, it was concluded that the parameter that has the strongest effect on traffic events and density formation on the D100 highway line is the strips. With these models, the infrastructure of the early warning system has been created for region-specific traffic density situations and possible traffic events.
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Year 2023,
Volume: 8 Issue: 1, 48 - 61, 10.08.2023
Cihan Çiftçi
,
Halim Kazan
References
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- Mbakwe, A. C., Saka, A. A., Choi, K., & Lee, Y. J. (2016). Alternative method of highway traffic safety analysis for developing countries using delphi technique and Bayesian network. Accident Analysis & Prevention, 93, 135-146. google scholar
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- Mujalli, R. O., & De Ona, J. (2011). A method for simplifying the analysis of traffic accidents injury severity on two-lane highways using Bayesian networks. Journal of safety research, 42(5), 317-326. google scholar
- Nguyen, H., Liu, W., Rivera, P., & Chen, F. (2016, April). Trafficwatch: Real-time traffic incident detection and monitoring using social media. In Pacific-asia conference on knowledge discovery and data mining (pp. 540-551). Springer, Cham. google scholar
- Ozbayoglu, M., Kucukayan, G., & Dogdu, E. (2016). A real-time autonomous highway accident detection model based on big data pro-cessing and computational intelligence. Proceedings - 2016 IEEE International Conference on Big Data, Big Data 2016, 1807-1813. https://doi.org/10.1109/BigData.2016.7840798. google scholar
- Pascale, A., & Nicoli, M. (2011, June). Adaptive Bayesian network for traffic flow prediction. In 2011 IEEE Statistical Signal Processing Workshop (SSP) (pp. 177-180). IEEE. google scholar
- Paule, J. D. G., Sun, Y., & Moshfeghi, Y. (2019). On fine-grained geolocalisation of tweets and real-time traffic incident detection. Information Processing & Management, 56(3), 1119-1132. google scholar
- Paule, J. D. G., Sun, Y., & Moshfeghi, Y. (2019). On fine-grained geolocalisation of tweets and real-time traffic incident detection. Information Processing & Management, 56(3), 1119-1132. google scholar
- Razzaq, S., Riaz, F., Mehmood, T., & Ratyal, N. I. (2016). Multi-Factors Based Road Accident Prevention System. 2016 International Conference on Computing, Electronic and Electrical Engineering, ICE Cube 2016 - Proceedings, 190-195. https://doi.org/10.1109/ICECUBE.2016.7495221. google scholar
- Ren, H., Song, Y., Wang, J., Hu, Y., & Lei, J. (2018). A Deep Learning Approach to the Citywide Traffic Accident Risk Prediction. IEEE Conference on Intelligent Transportation Systems, Proceedings, ITSC, 2018-November, 3346-3351. https://doi.org/10.1109/ITSC.2018.8569437. google scholar
- S. S. Ribeiro Jr., C. A. Davis Jr., D. R. R. Oliveira, W. Meira Jr., T. S. Gonçalves, and G. L. Pappa, “Traffic Observatory: A System to Detect and Locate Traffic Events and Conditions Using Twitter,” in Proceedings of the 5th ACM SIGSPATIAL International Workshop on Location-Based Social Networks, New York, NY, USA, 2012, pp. 5-11. google scholar
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- Salazar, J.C.; Torres-Ruiz, M.; Davis, C.A., Jr.; Moreno-Ibarra, M. Geocoding of traffic-related events from Twitter. In Proceedings of the XVI Brazilian Symposium of Geoinformatics GEOINFO, Campos do Jordao, SP, Brazil, 29 November-2 December 2015; GEOINFO Series; pp. 14-25. google scholar
- Shi, Q., & Abdel-Aty, M. (2015 ).Big Data applications in real-time traffic operation and safety monitoring and improvement on urban expressways. Transportation Research Part C: Emerging Technologies, 58, 380-394. https://doi.org/10.1016/j.trc.2015.02.022 google scholar
- Suat-Rojas, N., Gutierrez-Osorio, C., & Pedraza, C. (2022). Extraction and Analysis of Social Networks Data to Detect Traffic Accidents. Information, 13(1), 26. google scholar
- Sumalee, Agachai, and Hung Wai Ho. 2018. “Smarter and more connected: Future intelligent transportation system.” IATSS Research. https://doi.org/10.1016/j.iatssr.2018.05.005. google scholar
- Sun, M., Zhou, R., Jiao, C., & Sun, X. (2022). Severity analysis of hazardous material road transportation crashes with a Bayesian network using Highway Safety Information System data. International journal of environmental research and public health, 19(7), 4002. google scholar
- Sun, S., Zhang, C., & Yu, G. (2006). A Bayesian network approach to traffic flow forecasting. IEEE Transactions on intelligent transportation systems, 7(1), 124-132. google scholar
- Taamneh, M., Alkheder, S., & Taamneh, S. (2017). Data-mining techniques for traffic accident modeling and prediction in the United Arab Emirates. Journal of Transportation Safety and Security, 9(2), 146-166. https://doi.org/10.1080/19439962.2016.1152338. google scholar
- Vasavi, S. (2016). A Survey on Extracting Hidden Patterns within Road Accident Data using Machine Learning Techniques. Communications on Applied Electronics, 6(4), 1-6. https://doi.org/10.5120/cae2016652455. google scholar
- Wu S, Hofman JM, Mason WA, Watts DJ (2011) Who says what to whom on Twitter. In: Proceedings of the 20th international world wide web conference, pp 705-714. google scholar
- Yang, Y., Wang, K., Yuan, Z., & Liu, D. (2022). Predicting freeway traffic crash severity using XGBoost-Bayesian network model with consideration of features interaction. Journal of advanced transportation, 2022. google scholar
- Yao, W., & Qian, S. (2021). From Twitter to traffic predictor: Next-day morning traffic prediction using social media data. Transportation Research Part C: Emerging Technologies, 124, 102938. https://doi.org/10.1016/j.trc.2020.102938. google scholar
- Zhang, Z., He, Q., Gao, J., & Ni, M. (2018). A deep learning approach for detecting traffic accidents from social media data. Transportation research part C: emerging technologies, 86, 580-596. google scholar
- Zhu, L., Guo, F., Krishnan, R., & Polak, J. W. (2018). A Deep Learning Approach for Traffic Incident Detection in Urban Networks. https://doi.org/10.1109/itsc.2018.8569402. google scholar
- Zong, F., Chen, X., Tang, J., Yu, P., & Wu, T. (2019). Analyzing traffic crash severity with combination of information entropy and Bayesian network. IEEE Access, 7, 63288-63302. google scholar
- Zong, F., Xu, H., & Zhang, H. (2013). Prediction for traffic accident severity: comparing the Bayesian network and regression models. MathematiA2:A48cal Problems in Engineering, 2013. google scholar