Capacity assesment of street and road network in traffic control systems
DOI:
https://doi.org/10.15587/1729-4061.2013.19153Keywords:
capacity, street and road network, traffic control systemAbstract
Promising way of traffic control is the introduction of automated traffic control systems, the effectiveness of which depends on the traffic model adequacy. The possibility and correctness of using the classical gas dynamics device (gas-dynamic analogy) for the townplanning capacity assessment of the main street and road network was examined.
The method of the town-planning capacity assessment of the main street and road network was developed on the basis of the gassupply network coordination method and taking into account the functioning features of the transport-planning systems of cities. The method allows assessing the current state of the transport-planning system and further effect of the measures on its regulation. It does not depend on the size of the city and allows considering the settlement and its influence zone as a unit
References
- Dobbs, R. Urban World: Cities and the Rise of the Consuming Class [Текст] / Dobbs R., Remes J., Manyika J., Roxburgh Ch. and others. – New York, USA: McKinsey Global Institute – 2012. – Режим доступу: www.mckinsey.com/insights/mgi/research/urbanization/urban_world_cities_and_the_rise_of_the_consuming_class – Назва з екрану.
- Strategies for Balancing Urban Transport Share to Improve Mobility and Reduce Road Congestion [Текст] / [PIARC Technical Committee B.3 – Improved Mobility in Urban Areas]. – Paris, France: PIARC – 2013. – 125 p. – Режим доступу: http://www.piarc.org/en/publications/technical-reports/. – Назва з екрану.
- Strategies for Road Network Operations [Текст] / [PIARC Technical Committee B.2 – Road Network Operations]. – Paris, France: PIARC – 2012. – 90 p. – Режим доступу: http://www.piarc.org/en/publications/technical-reports/. – Назва з екрану.
- Falconer, G. Smart City Framework. A Systematic Process for Enabling Smart+Connected Communities [Текст] / G. Falconer, S. Mitchell. – San Jose, USA: Cisco Internet Business Solutions Group (IBSG) – 2012. – 11 p.
- Traffic Engineering Handbook [Текст] / [editor J. L. Pline]. – Washington, USA: Institute of Transportation Engineers – 1999. – 704 p.
- Highway Capacity Manual [Текст] / [National Research Council]. – Washington, USA: [без вид.] – 2000. – 1138 p.
- Дьомін М. М. Гідродинамічна модель як макропідхід для управління транспортним потоком / М. М. Дьомін, М. С. Фоменко // Містобудування та територіальне планування: наук.-техн. збірник / відпов. ред. М. М. Осєтрін. – К., КНУБА, 2011. – № 40. – С. 386 – 394.
- Фоменко М. С. Аналогія між дорожньо-транспортною системою міст України та мережею газопостачання // Збірник тез доповідей ІІІ Міжнародної конференції «Науково-технічне та організаційно-економічне сприяння реформам у будівництві і житлово-комунальному господарстві». – Макіївка: ДонНАБА, 2012. – С. 54 – 56.
- Фоменко М. С. Транспортний потік як об’єкт управління // Містобудування та територіальне планування: наук.-техн. збірник / відпов. ред. М. М. Осєтрін. – К., КНУБА, 2012. – № 45. – C. 293 – 299.
- Гук В. И. Элементы теории транспортных потоков и проектирования улиц и дорог: учебное пособие / В. И. Гук. – К.: УМК ВО, 1991. – 254 с.
- Современные кольцевые пересечения / [Зедгенизов А. В., Лагерев Р. Ю., Левашев А. Г.]. – Иркутск, РФ: [б. изд.], 2009. – 103 с.
- Фишельсон М. С. Транспортная планировка городов: [учеб. пособие для студ. авт.-дор. спец. высш. учеб. заведений] / М. С. Фишельсон. – М.: Высшая школа, 1985. – 240 с.
- Хомяк Я. В. Проектирование сетей автомобильных дорог / Я. В. Хомяк. – М.: Транспорт, 1983. – 207 с.
- Dobbs R., Remes J., Manyika J., Roxburgh Ch. and others (2012). Urban World: Cities and the Rise of the Consuming Class. New York, USA: McKinsey Global Institute.
- www.mckinsey.com/insights/mgi/research/urbanization/urban_world_cities_and_the_rise_of_the_consuming_class.
- PIARC Technical Committee B.3 – Improved Mobility in Urban Areas (2013). Strategies for Balancing Urban Transport Share to Improve Mobility and Reduce Road Congestion. France, 125.
- http://www.piarc.org/en/publications/technical-reports/.
- PIARC Technical Committee B.2 – Road Network Operations (2012). Strategies for Road Network Operations. France, 90.
- http://www.piarc.org/en/publications/technical-reports/.
- Falconer, G., Mitchell, S. (2012). Smart City Framework. A Systematic Process for Enabling Smart+Connected Communities. San Jose, USA: Cisco Internet Business Solutions Group (IBSG), 11.
- Traffic Engineering Handbook (1999). Pline, J. L., editor. Washington, USA: Institute of Transportation Engineers, 704.
- Highway Capacity Manual (2000). National Research Council. Washington, USA, 1138.
- Dyomin, M., Fomenko, M. (2011). Hydrodynamic Model as a Macro Model for Traffic Management. City Development and Planning of Territories, 40 (1). Kyiv, Ukraine, KNUBA, 386-394.
- Fomenko, M. (2012). Analogy between Road-Transportation System of Ukrainian Cities and Gas-Supplying System. Collection of Abstracts of Third International Conference "Scientific and Technical, Organizational and Economic Reforming in Construction and Housing", 54-56.
- Fomenko, M. (2012). Traffic Flow as Management Object. City Development and Planning of Territories, 45 (2), 293-299.
- Huk, V. I. (1991). Elements of Traffic Flow Theory and Design of Streets and Roads: manual, 254.
- Zyedgyenizov, A. V., Lagyeryev R. Yu., Lyevashev, A. G. (2009). Modern Rounabouts, 103.
- Fishelson, M. S. (1985). City Transportation Planning: manual, 240.
- Chomyak, Ya. V. (1983). Design of Road Networks, 207.
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