Research Article
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Year 2023, , 1 - 12, 21.06.2023
https://doi.org/10.38088/jise.1118420

Abstract

References

  • Coelho, M. C., Farias, T. L., & Rouphail, N. M. (2006). Effect of roundabout operations on pollutant emissions. Transportation Research Part D: Transport and Environment, 11(5), 333–343.
  • Mandavilli, S., Rys, M. J., & Russell, E. R. (2008). Environmental impact of modern roundabouts. International Journal of Industrial Ergonomics, 38(2), 135–142.
  • Gross, F., Lyon, C., Persaud, B., & Srinivasan, R. (2013). Safety effectiveness of converting signalized intersections to roundabouts. Accident Analysis & Prevention, 50, 234–241.
  • Mistry, J., Chaudhari, P., Arkatkar, S., & Antoniou, C. (2022). Examining Traffic Operations at Multi-Legged Intersection Operating under Heterogeneous Traffic: A Case Study in India. Transportation Research Procedia, 62, 83–90.
  • Dias, C., Abd Rahman, N., Abdullah, M., & Sukor, N. S. A. (2021). Influence of COVID-19 Mobility-Restricting Policies on Individual Travel Behavior in Malaysia. Sustainability, 13(24), 13960.
  • Basu, R., & Ferreira, J. (2021). Sustainable mobility in auto-dominated Metro Boston: Challenges and opportunities post-COVID-19. Transport Policy, 103, 197–210.
  • Abdullah, M., Dias, C., Muley, D., & Shahin, M. (2020). Exploring the impacts of COVID-19 on travel behavior and mode preferences. Transportation Research Interdisciplinary Perspectives, 8, 100255.
  • Dui, H., Chen, S., Zhou, Y., & Wu, S. (2022). Maintenance analysis of transportation networks by the traffic transfer principle considering node idle capacity. Reliability Engineering & System Safety, 221, 108386.
  • Olayode, I. O., Tartibu, L. K., & Okwu, M. O. (2021). Prediction and modeling of traffic flow of human-driven vehicles at a signalized road intersection using artificial neural network model: A South African road transportation system scenario. Transportation Engineering, 6, 100095.
  • Olayode, I. O., Tartibu, L. K., Okwu, M. O., & Ukaegbu, U. F. (2021). Development of a Hybrid Artificial Neural Network-Particle Swarm Optimization Model for the Modelling of Traffic Flow of Vehicles at Signalized Road Intersections. Applied Sciences, 11(18), 8387.
  • Cakici, Z., & Murat, Y. S. (2019). A Differential Evolution Algorithm-Based Traffic Control Model for Signalized Intersections. Advances in Civil Engineering, 1–16.
  • Yang, G., Warchol, S., Cunningham, C. M., & Hummer, J. (2022). The potential of signalized offset T-intersections to accommodate new developments. International Journal of Transportation Science and Technology.
  • Kitali, A. E., & Sando, P. E. T. (2017). A full Bayesian approach to appraise the safety effects of pedestrian countdown signals to drivers. Accident Analysis & Prevention, 106, 327–335.
  • Mokhtarimousavi, S., Anderson, J. C., Azizinamini, A., & Hadi, M. (2020). Factors affecting injury severity in vehicle-pedestrian crashes: A day-of-week analysis using random parameter ordered response models and Artificial Neural Networks. International Journal of Transportation Science and Technology, 9(2), 100–115.
  • Murat, Y. S., & Guo, R. (2021). Signalized Roundabouts. In International Encyclopedia of Transportation (pp. 227–237). Elsevier.
  • Bai, Y., Chen, W., & Xue, K. (2010). Association of Signal-Controlled Method at Roundabout and Delay. In 2010 International Conference on Intelligent Computation Technology and Automation (pp. 816–820). IEEE.
  • Arafat, M., Nafis, S. R., Sadeghvaziri, E., & Tousif, F. (2020). A data-driven approach to calibrate microsimulation models based on the degree of saturation at signalized intersections. Transportation Research Interdisciplinary Perspectives, 8, 100231.
  • Bandi, M. M., & George, V. (2020). Microsimulation Modelling in VISSIM on Short-term and Long-term Improvements for Mangalore City Road Network. Transportation Research Procedia, 48, 2725–2743.
  • [Chauhan, B. P., Joshi, G. J., & Parida, P. (2019). Car following model for urban signalised intersection to estimate speed based vehicle exhaust emissions. Urban Climate, 29, 100480.

Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa

Year 2023, , 1 - 12, 21.06.2023
https://doi.org/10.38088/jise.1118420

Abstract

Globally developing economies and opportunities have caused an increase in the density of people in city centers in recent years; thus, an exponential increase has been experienced in the number of motor vehicles, which complicates the creation of a sustainable traffic network. Waiting times and the number of stops cause psychological, physical, and environmental problems. The efficiency of intersections is vital to ensure sustainable transportation. Modern roundabouts outperform signalized roundabouts, and their popularity has been increasing in recent years. However, the geometric features of intersections should be suitable for the location and traffic composition. In this study, the Durmazlar roundabout, which is currently a signalized roundabout in Bursa, has been transformed into a modern roundabout and redesigned. One of the aims of the study is to make minimal changes in the geometry of the roundabout. One-way road applications have been made to regulate entrances and exits on problematic roads. Modeling of the roundabout and collecting data was performed through the PTV Vissim software. Queue length, travel time, and speed parameters of the data obtained regarding the new scenario and the current situation were compared.

References

  • Coelho, M. C., Farias, T. L., & Rouphail, N. M. (2006). Effect of roundabout operations on pollutant emissions. Transportation Research Part D: Transport and Environment, 11(5), 333–343.
  • Mandavilli, S., Rys, M. J., & Russell, E. R. (2008). Environmental impact of modern roundabouts. International Journal of Industrial Ergonomics, 38(2), 135–142.
  • Gross, F., Lyon, C., Persaud, B., & Srinivasan, R. (2013). Safety effectiveness of converting signalized intersections to roundabouts. Accident Analysis & Prevention, 50, 234–241.
  • Mistry, J., Chaudhari, P., Arkatkar, S., & Antoniou, C. (2022). Examining Traffic Operations at Multi-Legged Intersection Operating under Heterogeneous Traffic: A Case Study in India. Transportation Research Procedia, 62, 83–90.
  • Dias, C., Abd Rahman, N., Abdullah, M., & Sukor, N. S. A. (2021). Influence of COVID-19 Mobility-Restricting Policies on Individual Travel Behavior in Malaysia. Sustainability, 13(24), 13960.
  • Basu, R., & Ferreira, J. (2021). Sustainable mobility in auto-dominated Metro Boston: Challenges and opportunities post-COVID-19. Transport Policy, 103, 197–210.
  • Abdullah, M., Dias, C., Muley, D., & Shahin, M. (2020). Exploring the impacts of COVID-19 on travel behavior and mode preferences. Transportation Research Interdisciplinary Perspectives, 8, 100255.
  • Dui, H., Chen, S., Zhou, Y., & Wu, S. (2022). Maintenance analysis of transportation networks by the traffic transfer principle considering node idle capacity. Reliability Engineering & System Safety, 221, 108386.
  • Olayode, I. O., Tartibu, L. K., & Okwu, M. O. (2021). Prediction and modeling of traffic flow of human-driven vehicles at a signalized road intersection using artificial neural network model: A South African road transportation system scenario. Transportation Engineering, 6, 100095.
  • Olayode, I. O., Tartibu, L. K., Okwu, M. O., & Ukaegbu, U. F. (2021). Development of a Hybrid Artificial Neural Network-Particle Swarm Optimization Model for the Modelling of Traffic Flow of Vehicles at Signalized Road Intersections. Applied Sciences, 11(18), 8387.
  • Cakici, Z., & Murat, Y. S. (2019). A Differential Evolution Algorithm-Based Traffic Control Model for Signalized Intersections. Advances in Civil Engineering, 1–16.
  • Yang, G., Warchol, S., Cunningham, C. M., & Hummer, J. (2022). The potential of signalized offset T-intersections to accommodate new developments. International Journal of Transportation Science and Technology.
  • Kitali, A. E., & Sando, P. E. T. (2017). A full Bayesian approach to appraise the safety effects of pedestrian countdown signals to drivers. Accident Analysis & Prevention, 106, 327–335.
  • Mokhtarimousavi, S., Anderson, J. C., Azizinamini, A., & Hadi, M. (2020). Factors affecting injury severity in vehicle-pedestrian crashes: A day-of-week analysis using random parameter ordered response models and Artificial Neural Networks. International Journal of Transportation Science and Technology, 9(2), 100–115.
  • Murat, Y. S., & Guo, R. (2021). Signalized Roundabouts. In International Encyclopedia of Transportation (pp. 227–237). Elsevier.
  • Bai, Y., Chen, W., & Xue, K. (2010). Association of Signal-Controlled Method at Roundabout and Delay. In 2010 International Conference on Intelligent Computation Technology and Automation (pp. 816–820). IEEE.
  • Arafat, M., Nafis, S. R., Sadeghvaziri, E., & Tousif, F. (2020). A data-driven approach to calibrate microsimulation models based on the degree of saturation at signalized intersections. Transportation Research Interdisciplinary Perspectives, 8, 100231.
  • Bandi, M. M., & George, V. (2020). Microsimulation Modelling in VISSIM on Short-term and Long-term Improvements for Mangalore City Road Network. Transportation Research Procedia, 48, 2725–2743.
  • [Chauhan, B. P., Joshi, G. J., & Parida, P. (2019). Car following model for urban signalised intersection to estimate speed based vehicle exhaust emissions. Urban Climate, 29, 100480.
There are 19 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Alphan Kayacan 0000-0002-9837-3360

Bahadır Yılmaz 0000-0002-3480-1776

Ahmet Münir Özdemir 0000-0002-4872-154X

Early Pub Date June 21, 2023
Publication Date June 21, 2023
Published in Issue Year 2023

Cite

APA Kayacan, A., Yılmaz, B., & Özdemir, A. M. (2023). Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa. Journal of Innovative Science and Engineering, 7(1), 1-12. https://doi.org/10.38088/jise.1118420
AMA Kayacan A, Yılmaz B, Özdemir AM. Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa. JISE. June 2023;7(1):1-12. doi:10.38088/jise.1118420
Chicago Kayacan, Alphan, Bahadır Yılmaz, and Ahmet Münir Özdemir. “Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa”. Journal of Innovative Science and Engineering 7, no. 1 (June 2023): 1-12. https://doi.org/10.38088/jise.1118420.
EndNote Kayacan A, Yılmaz B, Özdemir AM (June 1, 2023) Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa. Journal of Innovative Science and Engineering 7 1 1–12.
IEEE A. Kayacan, B. Yılmaz, and A. M. Özdemir, “Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa”, JISE, vol. 7, no. 1, pp. 1–12, 2023, doi: 10.38088/jise.1118420.
ISNAD Kayacan, Alphan et al. “Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa”. Journal of Innovative Science and Engineering 7/1 (June 2023), 1-12. https://doi.org/10.38088/jise.1118420.
JAMA Kayacan A, Yılmaz B, Özdemir AM. Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa. JISE. 2023;7:1–12.
MLA Kayacan, Alphan et al. “Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa”. Journal of Innovative Science and Engineering, vol. 7, no. 1, 2023, pp. 1-12, doi:10.38088/jise.1118420.
Vancouver Kayacan A, Yılmaz B, Özdemir AM. Comparing Traffic Performances Between Signalized and Give-Way Roundabouts: A Case Study in Bursa. JISE. 2023;7(1):1-12.


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