Home/ Majors directory/Traffic Control and Organization/Methods and Models for Traffic Engineering
Methods and Models for Traffic Engineering
Major: Traffic Control and Organization
Code of subject: 7.275.02.E.026
Credits: 5.50
Department: Transport Technologies
Lecturer: Ph.D., Associate Professor Bojkiv Мykola
Semester: 2 семестр
Mode of study: денна
Learning outcomes: - Investigate transport processes, experiment, analyze and evaluate the parameters of transport systems and technologies;
- Develop, plan, implement methods of organizing safe activities in the field of transport systems and technologies;
- Investigate the types and types of transport systems. Find solutions for optimizing the parameters of transport systems. Assess the efficiency of infrastructure and technology of transport systems;
- Evaluate the parameters of traffic flows. Design schemes and networks of transport systems. Develop technologies for operational management of traffic flows;
- Classify and identify transport processes and systems. Evaluate the parameters of transport systems. Perform system analysis and forecasting of transport systems;
- Ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge;
Required prior and related subjects: • Traffic engineering, part 2;
• Road safety;
• Fundamentals of theories of transportation processes and systems;
• Research of operations in transport systems
Summary of the subject: Basic requirements for traffic organization. Laws of cybernetics and system management "Road conditions - traffic flows". Basic parameters of traffic flows. Dependencies between them under different traffic conditions. Economic efficiency of system management optimization “Road conditions - traffic flows”. Features of traffic flow in congestion. Conditions of traffic flow at the congress, intersection of streets and roads at different levels. Organization of public transport in cities. Socio-economic assessment of measures for the organization of traffic. Arrangement of pedestrian crossings and bicycle paths. Efficiency of traffic control systems. Zonal traffic restrictions. Assessment of the function of the city street and road network. Parking and parking of vehicles. Features of passing of traffic flows on a prohibitory signal of a traffic light.
Assessment methods and criteria: • written reports on laboratory work, oral examination, control work (40%)
• summary control (60 %, measure control, test): written-oral form (60%)
Recommended books: 1. Polishchuk V.P. Teoriia transportnoho potoku: metody ta modeli orhanizatsii dorozhnoho rukhu / V.P. Polishchuk, O.P. Dziuba. - K.: Znannia Ukrainy, 2008. - 175 s.
2. Palchyk A.M. Transportni potoky / A.M. Palchyk. - K.: Natsionalnyi transportnyi universytet, 2010. - 172 s.
3. Orhanizatsiia ta rehuliuvannia dorozhnoho rukhu: pidruchnyk / za zah. red. V.P. Polishchuka; O.O. Bakulich, O.P. Dziuba, V.I. Yeresov ta in. - K.: Znannia Ukrainy, 2012. - 468 s.
4. Fornalchyk Ye.Iu. Upravlinnia dorozhnim rukhom na rehulovanykh perekhrestiakh u mistakh / Ye. Yu. Fornalchyk, I. A. Mohyla, V. E. Trushevskyi, V. V. Hilevych ; za zah. red Ye. Yu. Fornalchyka // Lviv : Vydavnytstvo Lvivskoi politekhniky, 2018. – 236 s
Methods and Models for Traffic Engineering (курсова робота)
Major: Traffic Control and Organization
Code of subject: 7.275.02.E.028
Credits: 2.00
Department: Transport Technologies
Lecturer: Ph.D., Associate Professor Bojkiv Мykola
Semester: 2 семестр
Mode of study: денна
Learning outcomes: - Investigate transport processes, experiment, analyze and evaluate the parameters of transport systems and technologies;
- Develop, plan, implement methods of organizing safe activities in the field of transport systems and technologies;
- Investigate the types and types of transport systems. Find solutions for optimizing the parameters of transport systems. Assess the efficiency of infrastructure and technology of transport systems;
- Evaluate the parameters of traffic flows. Design schemes and networks of transport systems. Develop technologies for operational management of traffic flows;
- Classify and identify transport processes and systems. Evaluate the parameters of transport systems. Perform system analysis and forecasting of transport systems;
- Ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge;
Required prior and related subjects: • Modeling of traffic flows;
• Improving road safety;
• Transport planning of large and large cities;
• Technical means of traffic control
Summary of the subject: 1. Research of traffic conditions at a regulated intersection;
2. Creating a model of the intersection in the software environment PTV Vissim;
3. Design of traffic at the intersection taking into account public transport, pedestrian traffic and public transport stops on the approaches to the intersection.
4. Analysis and forecasting of the intersection under different traffic conditions
Assessment methods and criteria: • submission of the main part of the course work (notes) (60%);
• Presentation of graphic material and oral defense (30%);
• oral component on the materials of the course work (10%)
Recommended books: Fornalchyk Ye.Iu. Modeliuvannia transportnykh potokiv
/ Ye. Yu. Fornalchyk, V. V. Hilevych, I. A. Mohyla. Lviv : Vydavnytstvo Lvivskoi politekhniky, 2020. 216 s
2. Fornalchyk Ye.Iu. Upravlinnia dorozhnim rukhom na rehulovanykh perekhrestiakh u mistakh / Ye. Yu. Fornalchyk, I. A. Mohyla, V. E. Trushevskyi, V. V. Hilevych ; za zah. red Ye. Yu. Fornalchyka // Lviv : Vydavnytstvo Lvivskoi politekhniky, 2018. – 236 s
3. Niittymaki J. Installation and experiences of field testing a fuzzy signal controller / J. Niittymaki // European Journal of Operational Research. – 2001. – Vol. 131. – pp. 273–281.
4. Madhavan Nair B. A fuzzy logic controller for isolated signalized intersection with traffic abnormality considered / B. Madhavan Nair, J. Cai // Proceedings of 2007 IEEE Intelligent Vehicles Symposium. – 2007. – pp. 1229–1233.
5. Systemolohiia na transporti. Orhanizatsiia dorozhnoho rukhu : kn. 4 / [E. V. Havrylov, V. K. Dolia, O. T. Lanovyi, V. P. Polishchuk ta in.] ; za zah. red. M. F. Dmytrychenka. – K. : Znannia Ukrainy, 2005. – 452 s.