Systems of Road Traffic Management

Major: Transport Technology (by type)
Code of subject: 8.275.00.M.028
Credits: 3.00
Department: Transport Technologies
Lecturer: PhD in Technical Sciences, Associate Professor, Head of Department of Transport technologies Yurii Royko
Semester: 4 семестр
Mode of study: денна
Learning outcomes: Knowledge: 1. Acquiring of knowledge for the research and development of the complex of technical means of transport systems development, determination of regularities of their impact and the environment (KN2); 2. Understanding the instruments and strategies that have relation to the organization and technology of technical service, diagnosing and repair of vehicles, problems of traffic safety, and regularities of the impact of human factor on transport processes (KN3); 3. Knowledge and understanding of scientific principles, which are in the basics of formation of demand on transport services (KN4); 4. Knowledge of the basis of national transport network formation, the interaction of it with transport systems of other countries (KN5); 5. In-depth knowledge of regularities of freight and passenger flows formation, organization of their control, and the development of methods of transport processes organization based on the principles of logistics (KN6); 6. Knowledge and understanding of methodologies of design and modernization of methods, technologies, and technical means of transportation for the organization of international, mixed, combined, intermodal transportation due to regulatory requirements of current standards and specifications (KN8); 7. Knowledge of current achievements of innovative technologies in the field of transport, traffic management, and traffic flow control (KN9); 8. Acquisition of in-depth knowledge and understandings that relate to the specialty 275 Transport technologies (by types), which will be sufficient to organize and conduct scientific research successfully and successfully publicly defend their results on scientific seminars and specialized scientific councils (KN12). Skills: 1. To use acquired knowledge and understanding for identification, formulation, and solving the problems of development of transport complex with the use of modern scientific methods (SC1); 2. To calculate, design, and research the road network, traffic organization and regulation, transport processes of freight and passenger transportation, loading-unloading works, to carry out marketing analysis (SC5); 3. To identify, classify, and describe production activity in the field of transport (SC8); 4. To combine theory and practice, and also to make decisions and develop a strategy of activity for solving scientific-applied tasks in the field of transport considering universal values, public, state, and industrial interests (SC9); 5. To use in scientific-pedagogical practice the knowledge of transport technologies, apply the methodological tools of cognition, analyze obtained research results within existing theories, and make reasonable conclusions (SC12). Communication: 1. Ability to apply different methods, particularly current informational technologies, for effective communication on professional and social levels (COM2). Autonomy and responsibility: 1. Ability to realize the need for learning during the whole life for deepening the acquired and acquisition of new knowledge (AaR2); 2. Ability to be responsible for the work performed, make decisions independently, and achieve the goal in compliance with the requirements of professional ethics (AaR3).
Required prior and related subjects: System analysis in transport; Scientific bases of transport processes and systems; Modelling in transport systems.
Summary of the subject: 1. Logistics, laws of cybernetics, and management of the “Road conditions – traffic flows” system. 2. Objectives, classification, methods, and methodology of transport research. 3. Processing the results of transport research. Identification and analysis of patterns. 4. Methods of forecasting the parameters of transport systems. Formalized forecasting methods. 5. Methods of forecasting indicators of road users. 6. Mathematical models of long-term forecasting in the system “Driver – car – road – environment” (DCRE). 7. Traffic problems in the existing and planned territory and ways to solve them. 8. Patterns of vehicle movement in the traffic flow. 9. Characteristics of indicators and energy of traffic flow. 10. Interrelation of traffic flow indicators and their derived characteristics. 11. Assessment of the capacity of the road (street) and its elements as a probabilistic spatial-temporal characteristic. 12. Planning features of the territory of urbanized space and their influence on the patterns of change in the indicators of road users. 13. Control of traffic on the elements of the road network. 14. Peculiarities of formation and technology of traffic delay management on elements of the road network. 15. Automated traffic control systems and features of their application.
Assessment methods and criteria: Mid-term assessment: defense of individual research training; defense of a report on practical works. Final assessment: written (in the form of three-level tests) and oral components The maximum total number of points for the discipline is 100 points. The maximum possible amount of points for mid-term assessment is 40 points, of which 25 points for the defense of individual research training and 15 points for the defense of a report on practical works. The maximum possible amount of points for the final assessment is 60 points, of which the written component is 55 points; the oral component is 5 points.
Recommended books: 1. Форнальчик Є.Ю., Могила І.А., Трушевський В.Е., Гілевич В.В. Управління дорожнім рухом на регульованих перехрестях у містах: монографія / за заг. ред. Є.Ю. Форнальчика. – Львів: Видавництво Львівської політехніки, 2018. – 236 с. 2. Системологія на транспорті. Організація дорожнього руху [Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.]; за ред. М. Ф. Дмитриченка. – К. : Знання України, 2007. – 452 с. – (5 кн./ Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.; кн. 4). 3. Системологія на транспорті. Технологія наукових досліджень і технічної творчості [Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.] ; за ред. М. Ф. Дмитриченка. – К. : Знання України, 2007. – 318 с. – (5 кн./ Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.; кн. 2). 4. Системологія на транспорті. Ергономіка [Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.] ; за ред. М. Ф. Дмитриченка. – К. : Знання України, 2008. – 255 с. – (5 кн./ Гаврилов Е. В., Дмитриченко М. Ф., Доля В. К. та ін.; кн. 5). 5. Доля В.К. Прогнозування параметрів транспортних систем. / В.К. Доля, Я.В. Санько, Т.О. Самісько. – Х.: ХНАМГ, 2012. – 312 с. 6. Поліщук В. П. Теорія транспортного потоку : методи та моделі організації дорожнього руху / В. П. Поліщук, О. П. Дзюба. – К. : Знання України, 2008. – 175 с. 7. Організація та регулювання дорожнього руху: підручник / За заг. ред. В. П. Поліщука; О. О. Бакуліч, О. П. Дзюба, В. І. Єресов та ін. – К. : Знання України, 2012. – 467 с.