Search results for "heavy vehicles"

showing 4 items of 4 documents

Passenger Car Equivalents for Heavy Vehicles at Roundabouts. a Synthesis Review

2019

Passenger Car Equivalents (PCEs in the following) are used to transform a mixed fleet of vehicles into a fleet of equivalent passenger cars and to analyze capacity and level-of-service of roads and intersections. Most roundabouts guidelines propose constant values for PCEs but a single PCE value can result improper under heterogeneous traffic conditions. PCEs should be vary with traffic and road conditions and consequently PCEs applied to undersaturated traffic conditions can overestimate the heavy vehicle effect or be not sensitive to the traffic level or characteristics of heavy vehicles. Compared to other at-grade intersections, the interaction between the operational performances of the…

Computer scienceGeography Planning and Development0211 other engineering and technologiesMicrosimulation020101 civil engineering02 engineering and technology0201 civil engineeringTransport engineeringlcsh:HT165.5-169.9roundaboutSettore ICAR/04 - Strade Ferrovie Ed Aeroporti021110 strategic defence & security studiesheavy vehiclescapacitymicrosimulationTraffic simulationBuilding and Constructionlcsh:City planningTraffic flowUrban Studiespassenger car equivalentlcsh:TA1-2040Traffic conditionsRoundaboutstatistical methodsPassenger car equivalentEstimation methodslcsh:Engineering (General). Civil engineering (General)Frontiers in Built Environment
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Developing Passenger Car Equivalents for Freeways by Microsimulation

2015

Abstract In this paper a method of estimation of the passenger car equivalents for heavy vehicles on freeway is described. The variation in traffic quality was evaluated basing on a traffic demand characterized by different percentages of heavy vehicles. Aimsun micro-simulator was used to isolate traffic conditions difficult to capture on field, to replicate them to have a number of data as much as possible numerous, and to quantify the fundamental variables of traffic flow, namely the speed, flow, density, for a test freeway segment. Model calibration was accomplished by using traffic data collected at observation sections on the A22 Brenner Freeway, Italy. In order to check to what extent…

Engineeringheavy vehiclesbusiness.industryFlow (psychology)MicrosimulationmicrosimulationReplicateTraffic flowcalibrationAimsunAutomotive engineeringTransport engineeringTraffic conditionsfreewaysSettore ICAR/04 - Strade Ferrovie Ed Aeroportipassenger car equivalentsbusinessTransportation Research Procedia
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Microsimulation-based passenger car equivalents for heavy vehicles driving turbo-roundabouts

2016

Due to its geometric design, turbo-roundabouts impose greatest constraints to the vehicular trajectories; by consequence, one can expect a more unfavourable impact of heavy vehicles on the traffic conditions than on other types of roundabouts. The present paper addresses the question of how to estimate Passenger Car Equivalents (PCEs) for heavy vehicles driving turbo-roundabouts. The microsimulation approach used revealed as a useful tool for evaluating the variation of quality of traffic in presence of mixed fleets (different percentages of heavy vehicles). Based on the output of multiple runs of several scenarios simulation, capacity functions for each entry lane of the turbo-roundabout w…

Engineeringturbo-roundaboutsTurboMicrosimulation020101 civil engineering02 engineering and technologyAutomotive engineering0201 civil engineeringTransport engineeringroundabout0502 economics and businessroundaboutsheavy vehicleSettore ICAR/04 - Strade Ferrovie Ed Aeroporti050210 logistics & transportationTA1001-1280biologyheavy vehiclesbusiness.industryMechanical Engineering05 social sciencesmicrosimulationturbo-roundaboutbiology.organism_classificationAimsunTransportation engineeringGeometric designpassenger car equivalentAutomotive EngineeringTraffic conditionsPassenger car equivalentbusinessTransport
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Passenger Car Equivalent for Heavy Vehicles Crossing Turbo-roundabouts

2016

Abstract Turbo-roundabouts represent an innovative scheme of modern roundabouts which provides a spiraling traffic flow and requires drivers to choose their direction before entering the intersection, since raised lane separators mark the lanes on the ring. The configuration of the turbo-roundabout makes that patterns of conflict at entries with one and two conflicting traffic streams can coexist. This paper presents research efforts aimed at measuring quantitatively the effect of heavy vehicles on operational conditions of a turbo-roundabout. The study starts from the initial belief that the greatest constraints to the vehicular trajectories imposed by the turbo-roundabout necessarily impl…

Turbo-roundabouts;EngineeringTraffic conflictcritical headway;0211 other engineering and technologiesMicrosimulationPoison control02 engineering and technologyheavy vehicles;Automotive engineeringcritical headwayTransport engineering021105 building & construction0502 economics and businessheavy vehicleSettore ICAR/04 - Strade Ferrovie Ed Aeroportifollow-up headwayTurbo-roundabouts050210 logistics & transportationpassenger car equivalent;heavy vehiclesbusiness.industry05 social sciencesmicrosimulationTraffic simulationReplicateTraffic flowfollow-up headway;passenger car equivalentTurbo-roundaboutPassenger car equivalentbusinessIntersection (aeronautics)Transportation Research Procedia
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