Data mining and spatio-temporal characteristics of urban road traffic emissions: A case study in Shijiazhuang, China

Data mining and spatio-temporal characteristics of urban road traffic emissions: A case study in Shijiazhuang, China

Accurate estimation of traffic emissions and analysis of spatio-temporal distribution on urban roads play a crucial role in the development of low-carbon transportation system. Traditionally, a region's emission characteristics have been studied using numerous emission models with GPS-based spa...

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Veröffentlicht in:PloS one 2023-12, Vol.18 (12), p.e0295664-e0295664
Hauptverfasser: Ren, Lili, Guo, Xuliang, Wu, Jiangling, Singh, Amit Kumar
Format: Artikel
Sprache:eng
Schlagworte:
Air pollution
Analysis
Carbon content
Carbon dioxide
Carbon dioxide emissions
Case studies
China
Computer and Information Sciences
Data collection
Data mining
Data models
Data processing
Datasets
Decision making
Driving ability
Earth Sciences
Ecology and Environmental Sciences
Emission measurements
Emissions
Energy conservation
Energy consumption
Engineering and Technology
Environmental aspects
Estimation
Evaluation
Geospatial data
Global positioning systems
GPS
Greenhouse gases
Health aspects
Information processing
Physical Sciences
Pollutants
Road conditions
Roads
Roads & highways
Social Sciences
Spatial data
Spatial distribution
Spatiotemporal data
Temporal distribution
Traffic
Traffic engineering
Traffic information
Traffic management
Traffic speed
Transportation networks
Transportation systems
Urban areas
Vehicle emissions
VOCs
Volatile organic compounds
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description Accurate estimation of traffic emissions and analysis of spatio-temporal distribution on urban roads play a crucial role in the development of low-carbon transportation system. Traditionally, a region's emission characteristics have been studied using numerous emission models with GPS-based spatio-temporal data. Due to the heavy data processing needs of GPS-based data, emission characteristics for a large region have been studied by dividing the region into a limited number of smaller areas or units. Additionally, GPS data are based on a few vehicles in the traffic which does not fully reflect road conditions. This paper proposed an approach that can be used to study and calculate the spatio-temporal emission pattern of a region at a roadway section level by using Baidu's online traffic data and COPERT model. The proposed method can be used to estimate road-level emission patterns while avoiding the impact of redundant data in large datasets, making the dataset more reliable, applicable, and scalable. The proposed approach has been demonstrated through a study of spatio-temporal emission patterns in the Qiaoxi district within city of Shijiazhuang, China. Online data crawling technology was used to obtain data on urban road traffic speed and driving distance. The linear reference technology was used to construct a two-layer road network model to conduct the coupling and matching of traffic data with the road network data. The COPERT model was implemented to calculate the average traffic emissions on each road in the road network, and a traffic emission intensity index was proposed to quantify the CO, VOC, NOx and CO2 emissions on urban roads in the study area. The analysis results show that the traffic emission intensity of the expressway, trunk road, secondary road, and branch road is high during the morning peak (7 AM-9 AM) and evening peak (5 PM-7 PM). The sections with higher traffic emission intensity are mainly concentrated on the main roads and secondary roads such as Jiefang South Street, Shitong Road and Xinhua Road. Nearly one-third of 2nd Ring and 3rd Ring roads also have relatively high emission intensity. The research results provide new ideas for estimating traffic emissions in urban road networks and analyzing the spatio-temporal distribution of traffic emissions. The research results can also provide a decision-making basis for traffic management departments to formulate energy-saving and emission-reduction measures and promote the developme
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Traditionally, a region's emission characteristics have been studied using numerous emission models with GPS-based spatio-temporal data. Due to the heavy data processing needs of GPS-based data, emission characteristics for a large region have been studied by dividing the region into a limited number of smaller areas or units. Additionally, GPS data are based on a few vehicles in the traffic which does not fully reflect road conditions. This paper proposed an approach that can be used to study and calculate the spatio-temporal emission pattern of a region at a roadway section level by using Baidu's online traffic data and COPERT model. The proposed method can be used to estimate road-level emission patterns while avoiding the impact of redundant data in large datasets, making the dataset more reliable, applicable, and scalable. The proposed approach has been demonstrated through a study of spatio-temporal emission patterns in the Qiaoxi district within city of Shijiazhuang, China. Online data crawling technology was used to obtain data on urban road traffic speed and driving distance. The linear reference technology was used to construct a two-layer road network model to conduct the coupling and matching of traffic data with the road network data. The COPERT model was implemented to calculate the average traffic emissions on each road in the road network, and a traffic emission intensity index was proposed to quantify the CO, VOC, NOx and CO2 emissions on urban roads in the study area. The analysis results show that the traffic emission intensity of the expressway, trunk road, secondary road, and branch road is high during the morning peak (7 AM-9 AM) and evening peak (5 PM-7 PM). The sections with higher traffic emission intensity are mainly concentrated on the main roads and secondary roads such as Jiefang South Street, Shitong Road and Xinhua Road. Nearly one-third of 2nd Ring and 3rd Ring roads also have relatively high emission intensity. The research results provide new ideas for estimating traffic emissions in urban road networks and analyzing the spatio-temporal distribution of traffic emissions. 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Traditionally, a region's emission characteristics have been studied using numerous emission models with GPS-based spatio-temporal data. Due to the heavy data processing needs of GPS-based data, emission characteristics for a large region have been studied by dividing the region into a limited number of smaller areas or units. Additionally, GPS data are based on a few vehicles in the traffic which does not fully reflect road conditions. This paper proposed an approach that can be used to study and calculate the spatio-temporal emission pattern of a region at a roadway section level by using Baidu's online traffic data and COPERT model. The proposed method can be used to estimate road-level emission patterns while avoiding the impact of redundant data in large datasets, making the dataset more reliable, applicable, and scalable. The proposed approach has been demonstrated through a study of spatio-temporal emission patterns in the Qiaoxi district within city of Shijiazhuang, China. Online data crawling technology was used to obtain data on urban road traffic speed and driving distance. The linear reference technology was used to construct a two-layer road network model to conduct the coupling and matching of traffic data with the road network data. The COPERT model was implemented to calculate the average traffic emissions on each road in the road network, and a traffic emission intensity index was proposed to quantify the CO, VOC, NOx and CO2 emissions on urban roads in the study area. The analysis results show that the traffic emission intensity of the expressway, trunk road, secondary road, and branch road is high during the morning peak (7 AM-9 AM) and evening peak (5 PM-7 PM). The sections with higher traffic emission intensity are mainly concentrated on the main roads and secondary roads such as Jiefang South Street, Shitong Road and Xinhua Road. Nearly one-third of 2nd Ring and 3rd Ring roads also have relatively high emission intensity. The research results provide new ideas for estimating traffic emissions in urban road networks and analyzing the spatio-temporal distribution of traffic emissions. The research results can also provide a decision-making basis for traffic management departments to formulate energy-saving and emission-reduction measures and promote the development of urban green and low-carbon transportation.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>38091279</pmid><doi>10.1371/journal.pone.0295664</doi><tpages>e0295664</tpages><orcidid>https://orcid.org/0000-0001-8736-0903</orcidid><orcidid>https://orcid.org/0000-0002-4400-2986</orcidid><oa>free_for_read</oa></addata></record>
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subjects Air pollution
Analysis
Carbon content
Carbon dioxide
Carbon dioxide emissions
Case studies
China
Computer and Information Sciences
Data collection
Data mining
Data models
Data processing
Datasets
Decision making
Driving ability
Earth Sciences
Ecology and Environmental Sciences
Emission measurements
Emissions
Energy conservation
Energy consumption
Engineering and Technology
Environmental aspects
Estimation
Evaluation
Geospatial data
Global positioning systems
GPS
Greenhouse gases
Health aspects
Information processing
Physical Sciences
Pollutants
Road conditions
Roads
Roads & highways
Social Sciences
Spatial data
Spatial distribution
Spatiotemporal data
Temporal distribution
Traffic
Traffic engineering
Traffic information
Traffic management
Traffic speed
Transportation networks
Transportation systems
Urban areas
Vehicle emissions
VOCs
Volatile organic compounds
title Data mining and spatio-temporal characteristics of urban road traffic emissions: A case study in Shijiazhuang, China
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