Research Article
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Year 2022, , 61 - 67, 30.09.2022
https://doi.org/10.18100/ijamec.1145293

Abstract

References

  • Kıran, S., S. Şemin, and A. Ergör, Kazalar ve toplum sağlığı yönünden önemi. Sürekli Tıp Eğitimi Dergisi, 2001. 10(2): p. 50-1.
  • Uyurca, Ö. and İ. Atılgan, Ankara ilinde meydana gelen trafik kazalarının incelenmesi. Kent Akademisi, 2018. 11(4): p. 618-626.
  • Champion, H.R., J. Augenstein, A.J. Blatt, B. Cushing, K. Digges, J.H. Siegel, and M.C. Flanigan, Automatic crash notification and the Urgency algorithm: Its history, value, and use. Advanced Emergency Nursing Journal, 2004. 26(2): p. 143-156.
  • Rauscher, S., G. Messner, P. Baur, J. Augenstein, K. Digges, E. Perdeck, G. Bahouth, and O. Pieske. Enhanced automatic collision notification system-improved rescue care due to injury prediction-first field experience. in The 21st International Technical Conference on the Enhanced Safety of Vehicles Conference (ESV)-International Congress Center Stuttgart, Germany. 2009.
  • White, J., C. Thompson, H. Turner, B. Dougherty, and D.C. Schmidt, Wreckwatch: Automatic traffic accident detection and notification with smartphones. Mobile Networks and Applications, 2011. 16(3): p. 285-303.
  • Weiming, H., X. Xuejuan, D. Xie, T. Tieniu, and S. Maybank, Traffic accident prediction using 3-D model-based vehicle tracking. IEEE Transactions on Vehicular Technology, Vehicular Technology, IEEE Transactions on, IEEE Trans. Veh. Technol., 2004. 53(3): p. 677-694.
  • Yuan, Z., X. Zhou, and T. Yang. Hetero-convlstm: A deep learning approach to traffic accident prediction on heterogeneous spatio-temporal data. in Proceedings of the 24th ACM SIGKDD International Conference on Knowledge Discovery & Data Mining. 2018.
  • Park, S.-h., S.-m. Kim, and Y.-g. Ha, Highway traffic accident prediction using VDS big data analysis. The Journal of Supercomputing: An International Journal of High-Performance Computer Design, Analysis, and Use, 2016. 72(7): p. 2815-2831.
  • Smeed, R.J., Some statistical aspects of road safety research. Journal of the Royal Statistical Society. Series A (General), 1949. 112(1): p. 1-34.
  • Andreassen, D.C., Linking deaths with vehicles and population. Traffic Engineering and Control, 1985. 26(11): p. 547-549.
  • UAB. Ulastirma ve Altyapi Bakanligi. 2021 [cited 2022 1 May]; Available from: https://www.uab.gov.tr/uploads/pages/bakanlik-yayinlari/ulasan-ve-erisen-turkiye-2021.pdf.
  • Akgüngör, A. and E. Doğan, Smeed ve Andreassen kaza modellerinin Türkiye uygulaması: Farklı senaryo analizleri. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 2008. 23(4).
  • Shaheen, S. and R. Finson, Intelligent transportation systems. Reference module in earth systems and environmental sciences, 2013.
  • TUIK. Türkiye Istatistik Kurumu. 2022 [cited 2022 1 May]; Available from: https://data.tuik.gov.tr/Bulten/Index?p=Motorlu-Kara-Tasitlari-Mart-2022-45706
  • Traffic Announcements Data. 2022 [cited 2022 14 June]; Available from: https://data.ibb.gov.tr/en/dataset/ulasim-yonetim-merkezi-trafik-duyuru-verisi/resource/1c043914-8a76-4793-bae9-c60a68c7d389.
  • Koklu, M., I. Cinar, and Y.S. Taspinar, Classification of rice varieties with deep learning methods. Computers and electronics in agriculture, 2021. 187: p. 106285.
  • Koklu, M., R. Kursun, Y.S. Taspinar, and I. Cinar, Classification of Date Fruits into Genetic Varieties Using Image Analysis. Mathematical Problems in Engineering, 2021. 2021: p. 4793293.
  • Elsheikh, A.H., S.W. Sharshir, M. Abd Elaziz, A.E. Kabeel, W. Guilan, and Z. Haiou, Modeling of solar energy systems using artificial neural network: A comprehensive review. Solar Energy, 2019. 180: p. 622-639.
  • Taspinar, Y.S., I. Cinar, and M. Koklu, Classification by a stacking model using CNN features for COVID-19 infection diagnosis. Journal of X-ray science and technology, 2022(Preprint): p. 1-16.
  • Chakraborty, A., D. Mukherjee, and S. Mitra, Development of pedestrian crash prediction model for a developing country using artificial neural network. International Journal of Injury Control and Safety Promotion, 2019. 26(3): p. 283-293.
  • Najafi Moghaddam Gilani, V., S.M. Hosseinian, M. Ghasedi, and M. Nikookar, Data-Driven Urban Traffic Accident Analysis and Prediction Using Logit and Machine Learning-Based Pattern Recognition Models. Mathematical Problems in Engineering, 2021. 2021: p. 9974219.
  • Tang, J., L. Zheng, C. Han, W. Yin, Y. Zhang, Y. Zou, and H. Huang, Statistical and machine-learning methods for clearance time prediction of road incidents: A methodology review. Analytic Methods in Accident Research, 2020. 27: p. 100123.
  • Koklu, M. and Y.S. Taspinar, Determining the Extinguishing Status of Fuel Flames With Sound Wave by Machine Learning Methods. IEEE Access, 2021. 9: p. 86207-86216.
  • Qin, Z., A.T. Wang, C. Zhang, and S. Zhang. Cost-Sensitive Classification with k-Nearest Neighbors. in Knowledge Science, Engineering and Management. 2013. Berlin, Heidelberg: Springer Berlin Heidelberg.
  • Fiorentini, N. and M. Losa, Handling Imbalanced Data in Road Crash Severity Prediction by Machine Learning Algorithms. Infrastructures, 2020. 5(7).
  • Al-Doori, S.K.S., Y.S. Taspinar, and M. Koklu, Distracted Driving Detection with Machine Learning Methods by CNN Based Feature Extraction. International Journal of Applied Mathematics Electronics and Computers, 2021. 9(4): p. 116-121.
  • Zhou, X., P. Lu, Z. Zheng, D. Tolliver, and A. Keramati, Accident Prediction Accuracy Assessment for Highway-Rail Grade Crossings Using Random Forest Algorithm Compared with Decision Tree. Reliability Engineering & System Safety, 2020. 200: p. 106931.
  • Taspinar, Y.S., M. Koklu, and M. Altin, Classification of flame extinction based on acoustic oscillations using artificial intelligence methods. Case Studies in Thermal Engineering, 2021. 28: p. 101561.
  • Sarkar, S., R. Raj, S. Vinay, J. Maiti, and D.K. Pratihar, An optimization-based decision tree approach for predicting slip-trip-fall accidents at work. Safety Science, 2019. 118: p. 57-69.
  • Gutierrez-Osorio, C. and C. Pedraza, Modern data sources and techniques for analysis and forecast of road accidents: A review. Journal of Traffic and Transportation Engineering (English Edition), 2020. 7(4): p. 432-446.
  • Taspinar, Y.S. and M. Selek, Object recognition with hybrid deep learning methods and testing on embedded systems. International Journal of Intelligent Systems and Applications in Engineering, 2020. 8(2): p. 71-77.
  • TAŞPINAR, Y.S., I. Cinar, and M. Koklu, Improvement of Football Match Score Prediction by Selecting Effective Features for Italy Serie A League. MANAS Journal of Engineering, 2021. 9(1): p. 1-9.
  • Singh, D., Y.S. Taspinar, R. Kursun, I. Cinar, M. Koklu, I.A. Ozkan, and H.-N. Lee, Classification and Analysis of Pistachio Species with Pre-Trained Deep Learning Models. Electronics, 2022. 11(7).
  • Taspinar, Y.S., I. Cinar, and M. Koklu, Prediction of Computer Type Using Benchmark Scores of Hardware Units. Selcuk University Journal of Engineering Sciences, 2021. 20(1): p. 11-17.
  • Ropelewska, E., X. Cai, Z. Zhang, K. Sabanci, and M.F. Aslan, Benchmarking Machine Learning Approaches to Evaluate the Cultivar Differentiation of Plum (Prunus domestica L.) Kernels. Agriculture, 2022. 12(2).

Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul

Year 2022, , 61 - 67, 30.09.2022
https://doi.org/10.18100/ijamec.1145293

Abstract

Information about the reality of the traffic accident, the clearness of the roads and the status of the accident can be obtained from the traffic accident announcements. By using the words in the radio or telephone announcements, you can be informed about the status of the accident. Inferences can be made with machine learning methods using a large number of data. In this study, the accident situation was classified using three different machine learning methods using radio and telephone announcements in Istanbul in Turkey. The dataset contains 156.856 announcement data. Classifications were performed using Artificial Neural Network (ANN), k-Nearest Neighbor (kNN) and Decision Tree (DT) machine learning methods. Classification success was 92.1% in the classification made with the ANN model, 91% in the classification made with the kNN model, and 89.8% in the classification made with the DT model. Classification performances of the models were also analyzed with precision, recall, F-1 Score and specificity metrics. In addition, the estimation abilities of the models with ROC curves and AUC values were analyzed. In addition, the training and testing times of the models were also analyzed. It will be possible to use the suggested models to automatically detect the accident situation from the announcements. In this way, it is thought that the most accurate direction can be made by obtaining information about crew orientation, traffic jams and the size of the accident.

References

  • Kıran, S., S. Şemin, and A. Ergör, Kazalar ve toplum sağlığı yönünden önemi. Sürekli Tıp Eğitimi Dergisi, 2001. 10(2): p. 50-1.
  • Uyurca, Ö. and İ. Atılgan, Ankara ilinde meydana gelen trafik kazalarının incelenmesi. Kent Akademisi, 2018. 11(4): p. 618-626.
  • Champion, H.R., J. Augenstein, A.J. Blatt, B. Cushing, K. Digges, J.H. Siegel, and M.C. Flanigan, Automatic crash notification and the Urgency algorithm: Its history, value, and use. Advanced Emergency Nursing Journal, 2004. 26(2): p. 143-156.
  • Rauscher, S., G. Messner, P. Baur, J. Augenstein, K. Digges, E. Perdeck, G. Bahouth, and O. Pieske. Enhanced automatic collision notification system-improved rescue care due to injury prediction-first field experience. in The 21st International Technical Conference on the Enhanced Safety of Vehicles Conference (ESV)-International Congress Center Stuttgart, Germany. 2009.
  • White, J., C. Thompson, H. Turner, B. Dougherty, and D.C. Schmidt, Wreckwatch: Automatic traffic accident detection and notification with smartphones. Mobile Networks and Applications, 2011. 16(3): p. 285-303.
  • Weiming, H., X. Xuejuan, D. Xie, T. Tieniu, and S. Maybank, Traffic accident prediction using 3-D model-based vehicle tracking. IEEE Transactions on Vehicular Technology, Vehicular Technology, IEEE Transactions on, IEEE Trans. Veh. Technol., 2004. 53(3): p. 677-694.
  • Yuan, Z., X. Zhou, and T. Yang. Hetero-convlstm: A deep learning approach to traffic accident prediction on heterogeneous spatio-temporal data. in Proceedings of the 24th ACM SIGKDD International Conference on Knowledge Discovery & Data Mining. 2018.
  • Park, S.-h., S.-m. Kim, and Y.-g. Ha, Highway traffic accident prediction using VDS big data analysis. The Journal of Supercomputing: An International Journal of High-Performance Computer Design, Analysis, and Use, 2016. 72(7): p. 2815-2831.
  • Smeed, R.J., Some statistical aspects of road safety research. Journal of the Royal Statistical Society. Series A (General), 1949. 112(1): p. 1-34.
  • Andreassen, D.C., Linking deaths with vehicles and population. Traffic Engineering and Control, 1985. 26(11): p. 547-549.
  • UAB. Ulastirma ve Altyapi Bakanligi. 2021 [cited 2022 1 May]; Available from: https://www.uab.gov.tr/uploads/pages/bakanlik-yayinlari/ulasan-ve-erisen-turkiye-2021.pdf.
  • Akgüngör, A. and E. Doğan, Smeed ve Andreassen kaza modellerinin Türkiye uygulaması: Farklı senaryo analizleri. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 2008. 23(4).
  • Shaheen, S. and R. Finson, Intelligent transportation systems. Reference module in earth systems and environmental sciences, 2013.
  • TUIK. Türkiye Istatistik Kurumu. 2022 [cited 2022 1 May]; Available from: https://data.tuik.gov.tr/Bulten/Index?p=Motorlu-Kara-Tasitlari-Mart-2022-45706
  • Traffic Announcements Data. 2022 [cited 2022 14 June]; Available from: https://data.ibb.gov.tr/en/dataset/ulasim-yonetim-merkezi-trafik-duyuru-verisi/resource/1c043914-8a76-4793-bae9-c60a68c7d389.
  • Koklu, M., I. Cinar, and Y.S. Taspinar, Classification of rice varieties with deep learning methods. Computers and electronics in agriculture, 2021. 187: p. 106285.
  • Koklu, M., R. Kursun, Y.S. Taspinar, and I. Cinar, Classification of Date Fruits into Genetic Varieties Using Image Analysis. Mathematical Problems in Engineering, 2021. 2021: p. 4793293.
  • Elsheikh, A.H., S.W. Sharshir, M. Abd Elaziz, A.E. Kabeel, W. Guilan, and Z. Haiou, Modeling of solar energy systems using artificial neural network: A comprehensive review. Solar Energy, 2019. 180: p. 622-639.
  • Taspinar, Y.S., I. Cinar, and M. Koklu, Classification by a stacking model using CNN features for COVID-19 infection diagnosis. Journal of X-ray science and technology, 2022(Preprint): p. 1-16.
  • Chakraborty, A., D. Mukherjee, and S. Mitra, Development of pedestrian crash prediction model for a developing country using artificial neural network. International Journal of Injury Control and Safety Promotion, 2019. 26(3): p. 283-293.
  • Najafi Moghaddam Gilani, V., S.M. Hosseinian, M. Ghasedi, and M. Nikookar, Data-Driven Urban Traffic Accident Analysis and Prediction Using Logit and Machine Learning-Based Pattern Recognition Models. Mathematical Problems in Engineering, 2021. 2021: p. 9974219.
  • Tang, J., L. Zheng, C. Han, W. Yin, Y. Zhang, Y. Zou, and H. Huang, Statistical and machine-learning methods for clearance time prediction of road incidents: A methodology review. Analytic Methods in Accident Research, 2020. 27: p. 100123.
  • Koklu, M. and Y.S. Taspinar, Determining the Extinguishing Status of Fuel Flames With Sound Wave by Machine Learning Methods. IEEE Access, 2021. 9: p. 86207-86216.
  • Qin, Z., A.T. Wang, C. Zhang, and S. Zhang. Cost-Sensitive Classification with k-Nearest Neighbors. in Knowledge Science, Engineering and Management. 2013. Berlin, Heidelberg: Springer Berlin Heidelberg.
  • Fiorentini, N. and M. Losa, Handling Imbalanced Data in Road Crash Severity Prediction by Machine Learning Algorithms. Infrastructures, 2020. 5(7).
  • Al-Doori, S.K.S., Y.S. Taspinar, and M. Koklu, Distracted Driving Detection with Machine Learning Methods by CNN Based Feature Extraction. International Journal of Applied Mathematics Electronics and Computers, 2021. 9(4): p. 116-121.
  • Zhou, X., P. Lu, Z. Zheng, D. Tolliver, and A. Keramati, Accident Prediction Accuracy Assessment for Highway-Rail Grade Crossings Using Random Forest Algorithm Compared with Decision Tree. Reliability Engineering & System Safety, 2020. 200: p. 106931.
  • Taspinar, Y.S., M. Koklu, and M. Altin, Classification of flame extinction based on acoustic oscillations using artificial intelligence methods. Case Studies in Thermal Engineering, 2021. 28: p. 101561.
  • Sarkar, S., R. Raj, S. Vinay, J. Maiti, and D.K. Pratihar, An optimization-based decision tree approach for predicting slip-trip-fall accidents at work. Safety Science, 2019. 118: p. 57-69.
  • Gutierrez-Osorio, C. and C. Pedraza, Modern data sources and techniques for analysis and forecast of road accidents: A review. Journal of Traffic and Transportation Engineering (English Edition), 2020. 7(4): p. 432-446.
  • Taspinar, Y.S. and M. Selek, Object recognition with hybrid deep learning methods and testing on embedded systems. International Journal of Intelligent Systems and Applications in Engineering, 2020. 8(2): p. 71-77.
  • TAŞPINAR, Y.S., I. Cinar, and M. Koklu, Improvement of Football Match Score Prediction by Selecting Effective Features for Italy Serie A League. MANAS Journal of Engineering, 2021. 9(1): p. 1-9.
  • Singh, D., Y.S. Taspinar, R. Kursun, I. Cinar, M. Koklu, I.A. Ozkan, and H.-N. Lee, Classification and Analysis of Pistachio Species with Pre-Trained Deep Learning Models. Electronics, 2022. 11(7).
  • Taspinar, Y.S., I. Cinar, and M. Koklu, Prediction of Computer Type Using Benchmark Scores of Hardware Units. Selcuk University Journal of Engineering Sciences, 2021. 20(1): p. 11-17.
  • Ropelewska, E., X. Cai, Z. Zhang, K. Sabanci, and M.F. Aslan, Benchmarking Machine Learning Approaches to Evaluate the Cultivar Differentiation of Plum (Prunus domestica L.) Kernels. Agriculture, 2022. 12(2).
There are 35 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Eren Dağlı 0000-0002-3892-0270

Mustafa Büber 0000-0003-2750-4068

Yavuz Selim Taspınar 0000-0002-7278-4241

Publication Date September 30, 2022
Published in Issue Year 2022

Cite

APA Dağlı, E., Büber, M., & Taspınar, Y. S. (2022). Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul. International Journal of Applied Mathematics Electronics and Computers, 10(3), 61-67. https://doi.org/10.18100/ijamec.1145293
AMA Dağlı E, Büber M, Taspınar YS. Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul. International Journal of Applied Mathematics Electronics and Computers. September 2022;10(3):61-67. doi:10.18100/ijamec.1145293
Chicago Dağlı, Eren, Mustafa Büber, and Yavuz Selim Taspınar. “Detection of Accident Situation by Machine Learning Methods Using Traffic Announcements: The Case of Metropol Istanbul”. International Journal of Applied Mathematics Electronics and Computers 10, no. 3 (September 2022): 61-67. https://doi.org/10.18100/ijamec.1145293.
EndNote Dağlı E, Büber M, Taspınar YS (September 1, 2022) Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul. International Journal of Applied Mathematics Electronics and Computers 10 3 61–67.
IEEE E. Dağlı, M. Büber, and Y. S. Taspınar, “Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul”, International Journal of Applied Mathematics Electronics and Computers, vol. 10, no. 3, pp. 61–67, 2022, doi: 10.18100/ijamec.1145293.
ISNAD Dağlı, Eren et al. “Detection of Accident Situation by Machine Learning Methods Using Traffic Announcements: The Case of Metropol Istanbul”. International Journal of Applied Mathematics Electronics and Computers 10/3 (September 2022), 61-67. https://doi.org/10.18100/ijamec.1145293.
JAMA Dağlı E, Büber M, Taspınar YS. Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul. International Journal of Applied Mathematics Electronics and Computers. 2022;10:61–67.
MLA Dağlı, Eren et al. “Detection of Accident Situation by Machine Learning Methods Using Traffic Announcements: The Case of Metropol Istanbul”. International Journal of Applied Mathematics Electronics and Computers, vol. 10, no. 3, 2022, pp. 61-67, doi:10.18100/ijamec.1145293.
Vancouver Dağlı E, Büber M, Taspınar YS. Detection of accident situation by machine learning methods using traffic announcements: the case of metropol Istanbul. International Journal of Applied Mathematics Electronics and Computers. 2022;10(3):61-7.