magistrsko delo
Igor Mendek (Author), Vladimir Grubelnik (Mentor), Rene Markovič (Co-mentor)

Abstract

V prvem delu magistrskega dela podamo teoretično podlago za obravnavo prometa. Opravimo pregled strokovne literature, definiramo fizikalne količine za opis faznih stanj prometa in predstavimo matematične modele prometa, ki so odločilno vplivali na zgodovinski razvoj matematičnega modeliranja prometa. Ločimo med makroskopskimi, mezoskopskimi in mikroskopskimi modeli, pri čemer izpostavimo tiste, ki jih nadalje uporabimo za analizo izmerjenih podatkov na slovenskih cestah. Podatke za posamezne odseke slovenskih avtocest in hitrih cest pridobimo od Direkcije Republike Slovenije za infrastrukturo. Posamezne odseke klasificiramo na podlagi analize izmerjenih podatkov pretoka, zasedenosti, gostote in hitrosti prometa. Z analizo meritev ugotovimo, na katerih odsekih in v katerih časovnih obdobjih prihaja do zastojev. Namen tega je poiskati modelne rešitve za odpravo teh zastojev. Za odpravo zastojev na odseku 461 avtoceste A1 od uvoza Domžale do razcepa Zadobrava izdelamo različne modelne rešitve. Simuliramo dodatni prometni pas, začasno uvedbo prometnega pasu za vozila z več potniki na odstavnem pasu in prepoved prometa za tovorna vozila in avtobuse ob delavnikih med 6. in 9. uro. Rezultati simulacij kažejo, da so različne rešitve različno učinkovite, pri čemer se pretok prometa v vseh ponujenih rešitvah poveča. Na podlagi rezultatov simulacij zaključimo, da je kot kratkoročna rešitev ustrezna prepoved prometa za tovorna vozila, dolgoročno bi se na tem odseku učinkovito zmanjšali zastoji z izgradnjo dodatnega prometnega pasu. Izdelane modelne rešitve so tudi dobra osnova za odpravo zastojev na drugih odsekih.

Keywords

magistrska dela;fizika kompleksnih sistemov;nelinearni dinamični sistemi;modeli prometnega toka;analiza prometa;simulacija odprave zastojev;

Data

Language: Slovenian
Year of publishing:
Typology: 2.09 - Master's Thesis
Organization: UM FNM - Faculty of Natural Sciences and Mathematics
Publisher: [I. Mendek]
UDC: 531.3:656.11(043.2)
COBISS: 116092163 Link will open in a new window
Views: 49
Downloads: 4
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Other data

Secondary language: English
Secondary title: Analysis of traffic on slovenian roads
Secondary abstract: The first part of the master thesis is a theoretical basis for dealing with traffic. We review the professional literature, define physical quantities to describe the phase states of traffic, and present mathematical models of traffic that have decisively influenced the historical development of mathematical modeling of traffic. We distinguish between macroscopic, mesoscopic, and microscopic models and highlight those that are further used for the analysis of measured data on Slovenian roads. Data for individual sections of Slovenian motorways and expressways are obtained from the Slovenian Infrastructure Agency. Individual sections are classified based on the analysis of measured data on flow, occupancy, density, and traffic speed. By analyzing the measurements, we determine on which sections and in what timeframes there are congestions. The purpose of this analysis is to find model solutions that aim to eliminate them. We develop various model solutions to eliminate congestion on section 461, the A1 motorway from the Domžale entrance to the Zadobrava junction. More precisely, we consider an additional traffic lane, the temporary introduction of a traffic lane for vehicles with several passengers in the parking lane, and a traffic ban for trucks and buses on weekdays between 6 am, and 9 am. The simulations show that different solutions are differently efficient, with the flow of traffic increasing in all offered solutions. Based on the results of the simulations, we conclude that as a short-term solution, a traffic ban for trucks is appropriate, and in the long run, congestion on this section would be effectively reduced by building an additional traffic lane. The developed model solutions are also a good basis for eliminating congestion on other sections.
Secondary keywords: master theses;physics of complex systems;nonlinear dynamical systems;traffic flow models;traffic analysis;congestion prevention simulation;Prometna signalizacija;Fizika;
Type (COBISS): Master's thesis/paper
Thesis comment: Univ. v Mariboru, Fak. za naravoslovje in matematiko, Oddelek za fiziko
Pages: XIV, 100 str.
ID: 16015384