Russian Federation
Voronezh, Russian Federation
Russian Federation
. Forced traffic flow management using automated controls, such as traffic lights, remains relevant and often the only one. Due to the oversaturation of transport traffic, which many cities of the world are facing today, special attention is paid to effective management and the development of new optimal management methods in order to allow vehicles to pass through a regulated section of the road network as much as possible. One of the alternative options that can increase the efficiency of management by up to 20% on average is the introduction of coordinated management. The presented material provides an analysis of various approaches to the calculation of coordination plans.
traffic flow management, traffic light regulation, coordinated control methods, traffic light regulation cycle
1. Rukovodstvo po propusknoy sposobnosti avtomobil'nyh dorog: Rukovodstvo po analizu mul'timodal'noy mobil'nosti. 6-e izd. Sovet po transportnym issledovaniyam, Vashington, okrug Kolumbiya, 2016
2. A. Novikov, I. Novikov, A. Shevcova Issledovanie vliyaniya tipa i sostoyaniya dorozhnogo pokrytiya na parametry signaliziruemogo perekrestka. Procedura transportnyh issledovaniy. 2018. Tom 36. S. 548-555.
3. A. Novikov, S. Glagolev, I. Novikov, A. Shevcova Informacionnye tehnologii i upravlenie transportnymi sistemami Razrabotka podhoda k ocenke adaptacii transportnoy modeli perekrestka. Seriya konferenciy IOP: Materialovedenie i Inzheneriyaeta ssylka otklyuchena, 2019, Tom 632(1), s. 012052.
4. D. Fahardo, T. Au, S.T. Uoller, P. Stoun, D. Yangavtomaticheskoe upravlenie perekrestkami. Otchet o transportnyh issledovaniyah: Zhurnal Soveta po transportnym issledovaniyam, 2011. Tom 2259, s. 223-232
5. V. A. Zelikov, G.A. Denisov, S.V. Dorohin, V.V. Razgonyaeva, N.V. Zelikova. Sovershenstvovanie deystvuyuschey redakcii Pravil dorozhnogo dvizheniya Rossiyskoy Federacii kak perspektivnyy podhod k obespecheniyu bezopasnosti dorozhnogo dvizheniya. Issledovaniya v oblasti vychislitel'nogo intellekta. 2019. Tom 826. s. 1081-1088.
6. E.A. Volkov, I.A. Novikov, N.A. Schetinin, S.V. Dorohin, V.A. Zelikov. Matematicheskoe modelirovanie rabochih operaciy dorozhno- stroitel'nyh mashin na osnove koefficientov proizvoditel'nosti. Zhurnal inzhenernyh i prikladnyh nauk ARPN. 2018. Tom 13. (6). S. 2353-2357.
7. L. Li, D. Ven', D. Yao. Obzor upravleniya dorozhnym dvizheniem s ispol'zovaniem sredstv avtomobil'noy svyazi. Tranzakcii IEEE po intellektual'nym transportnym sistemam. 2014. Tom 15 (1), s. 425-432
8. A. Novikov, I. Novikov, A. Shevcova. Modelirovanie svetofornoy signalizacii v zavisimosti ot kachestva transportnogo potoka v gorode. Zhurnal prikladnoy inzhenernoy nauki. 2019. Tom 17. (2). S. 175-181.
9. A. Ostrouh, Yu. Nuruev, D. Efimenko, S. Zhankaziev, D. Moroz Avtomatizirovannaya sistema dispetcherskogo upravleniya mobil'nymi betonosmesitel'nymi ustanovkami. Zhurnal inzhenernyh i prikladnyh nauk ARPN. 2016. Tom 11. № 11. S. 6733-6736
10. K. Drezner, P. Stoun mnogoagentnyy podhod k avtonomnomu upravleniyu perekrestkami. Zhurnal issledovaniy iskusstvennogo intellekta. 2008.Tom 31, s. 591-656.
