VERIFICATION OF THE EFFICIENCY OF A DISTRIBUTED SYSTEM FOR ADAPTIVE TRAFFIC FLOW CONTROL BASED ON EVENT-COUPLED AUTOMATIC MODELS

The paper describes the process of creating a test environment and testing a distributed system for adaptive traffic control. A software system has been developed that communicates the control system with a simulation model and a program that implements the operation of the control system. The main content of the work is the description of experiments carried out to test the effectiveness of the proposed method for the development of distributed systems for adaptive traffic control. The developed system is compared with existing systems for adaptive traffic control.

1. De Souza, Allan M., et al. "Traffic management systems: A classification, review, challenges, and future perspectives." International Journal of Distributed Sensor Networks 13.4 (2017): 1550147716683612.

2. Slavin, Courtney, et al. "Statistical study of the impact of adaptive traffic signal control on traffic and transit performance." Transportation Research Record 2356.1 (2013): 117-126.

3. An, Sheng-hai, Byung-Hyug Lee, and Dong-Ryeol Shin. "A survey of intelligent transportation systems." 2011 Third International Conference on Computational Intelligence, Communication Systems and Networks. IEEE, 2011.

4. Liu, Ying, Lei Liu, and Wei-Peng Chen. "Intelligent traffic light control using distributed multi-agent Q learning." 2017 IEEE 20th International Conference on Intelligent Transportation Systems (ITSC). IEEE, 2017.

5. Bui, Khac-Hoai Nam, and Jason J. Jung. "Internet of agents framework for connected vehicles: A case study on distributed traffic control system." Journal of Parallel and Distributed Computing 116 (2018): 89-95.

6. De Souza AM and Villas L. A fully-distributed traffic management system to improve the overall traffic efficiency. In: 2016 ACM international conference on modeling, analysis and simulation of wireless and mobile systems, Malta, 13-17 November 2016. New York: ACM.

7. Vyatkin V. IEC 61499 as enabler of distributed and intelligent automation: State-of-the-art review //IEEE transactions on Industrial Informatics. – 2011. – Т. 7. – №. 4. – С. 768-781.

8. Thramboulidis K. IEC 61499 in factory automation //Advances in Computer, Information, and Systems Sciences, and Engineering. – 2007. – С. 115-124.

9. Lyu, Guolin, and Robert William Brennan. "Towards IEC 61499-Based Distributed Intelligent Automation: A Literature Review." IEEE Transactions on Industrial Informatics 17.4 (2020): 2295-2306.

10. Elkin D., Vyatkin V. (2021) Distributed Traffic Control Method Based on Interconnected Agents. In: Silhavy R. (eds) Informatics and Cybernetics in Intelligent Systems. CSOC 2021. Lecture Notes in Networks and Systems, vol 228. Springer, Cham. https://doi.org/10.1007/978-3-03077448-6_53

11. Lopez P. A. et al. Microscopic traffic simulation using sumo //2018 21st International Conference on Intelligent Transportation Systems (ITSC). – IEEE, 2018. – С. 2575-2582

12. Certificate of state registration of the computer program No. 2022611874 Russian Federation. Software for counting the number of agents for managing traffic on a section of the road network: No. 2022610650: Appl. 01/13/2022 publ. 02.02.2022 / D. M. Elkin. – EDN PYPAKI.

13. ОДМ 218.6.003–2011 Методические рекомендации по проектированию светофорных объектов на автомобильных дорогах

14. Andrews, C. M. Evaluation of New Jersey route 18 OPAC/MIST traffic–control system/ C. M. Andrews, S. M. Elahi, J. E Clark //Transportation research record. – 1997. – Vol. 1603. – P. 150–155.

15. Samadi, S. Performance evaluation of intelligent adaptive traffic control systems: A case study/ S. Samadi et al. //Journal of transportation technologies. – 2012. – Vol. 2. – P. 248 – 259

16. Jansuwan, S. Assessment of area traffic control system in bangkok by the microscopic simulation model/ S. Jansuwan, S. Narupiti //Proceedings of the Eastern Asia Society for Transportation Studies. – 2005. –Vol. 5. – P. 1367–1378.

17. Wahlstedt, J. Evaluation of the two self–optimising traffic signal systems Utopia/Spot and ImFlow, and comparison with existing signal control in Stockholm, Sweden/ J. Wahlstedt //16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013) – 2013. – Vol. 1. – P. 1541–1546