Redirigiendo al acceso original de articulo en 22 segundos...
ARTÍCULO
TITULO

Measuring Traffic Congestion with Novel Metrics: A Case Study of Six U.S. Metropolitan Areas

Jeong Seong    
Yunsik Kim    
Hyewon Goh    
Hyunmin Kim and Ana Stanescu    

Resumen

Quantifying traffic congestion is a critical task for transportation planning and research. Numerous metrics have been developed, mainly focusing on changes in vehicle speeds, their extents, and travel time. In this study, new metrics are presented using the Hägerstrand?s space-time cube that has been studied from time geography perspectives since the 1960s. Particularly, the product of distance and time, i.e., distanceTime, is proposed as a base metric to measure traffic congestion amounts. Using the base metric such as mileHours, metrics of weighted congestion and normalized congestion amounts were also developed. New metrics were applied to six metropolitan areas and their vicinities in the United States (Atlanta, Chicago, Washington, D.C. and Baltimore, Dallas and Fort Worth, Los Angeles, and New York), and congestion amounts were calculated and compared. The Google Traffic Layer API was used to obtain traffic congestion datasets for six months (April?September 2022), and GIS (geographic information systems) was used for delineating road features and traffic intensity levels. Among the six areas, New York and its vicinity showed the largest congestion when only heavy congestion was used. Los Angeles and its vicinity showed the largest congestion when all congestion levels were considered. This study shows that the proposed metrics are very effective in summarizing traffic amounts and broadly applicable for further analyses of traffic congestion phenomena by associating various other factors, such as weekdays, months, or gas prices. The new metrics developed in this research may help transportation researchers and practitioners by providing them with a set of metrics applicable to summarizing congestion amounts by synthesizing congestion intensity, extent, and duration.

 Artículos similares

       
 
Apostolos Anagnostopoulos and Fotini Kehagia    
Research into collecting and measuring reliable, accurate, and naturalistic microscopic traffic data is a fundamental aspect in road network planning scientific literature. The vehicle trajectory is one of the main variables in traffic flow theory that a... ver más
Revista: Infrastructures

 
Vigile Marie Fabella and Sonja Szymczak    
A crucial step in measuring the resilience of railway infrastructure is to quantify the extent of its vulnerability to natural hazards. In this paper, we analyze the vulnerability of the German railway network to four types of natural hazards that regula... ver más
Revista: Infrastructures

 
Domenico Vizzari, Emmanuel Chailleux, Stéphane Lavaud, Eric Gennesseaux and Stephane Bouron    
Solar roads are transportation infrastructures able both to generate electricity thanks to solar cells placed under a semi-transparent layer and to ensure heavy traffic circulation. In this paper, a novel transparent top layer made of glass aggregates bo... ver más
Revista: Infrastructures

 
Mike Hynes, Olga Bolbocean, Michael McNally, Mike Conroy, Daniel Bednarczuk, Fiona Hyland, Emer Coyne and Cat Marie    
Public transport transforms urban communities and the lives of citizens living in them by stimulating economic growth, promoting sustainable lifestyles and providing a greater quality of life. Globally, the healthiest cities have one thing in common, a p... ver más
Revista: Urban Science

 
Antonio Sánchez Soliño, Antonio L. Lara Galera, Fernando Cabero Colín     Pág. 3 - 10
This paper presents a method to build up a confidence interval for the evolution of traffic in motorway concessions, based on a univariate time-series model. The main advantage of this method, compared to traditional traffic models, is that it allows to ... ver más