Appraisal of Temporal Transferability of Cold Region Winter Weather Traffic Models for Major Highway Segments in Alberta Canada

This paper evaluates the effect of inclement weather conditions on the travel demand for three classes of vehicles for a primary highway in the province of Alberta, Canada. The demand variables are passenger cars, trucks, and total traffic. It is well known from previous studies that adverse weather conditions such as low temperatures and heavy snowfall cause variation in traffic flow patterns. A winter weather model, based on the dummy variable regression model, was developed to quantify the variations in traffic volume due to snowfall and temperature changes. To establish the relationships, vehicular data was collected from six weigh-in-motion (WIM) sites, and the weather data associated with the WIM sites was collected from nearby weather stations. The study revealed that the variation in truck traffic, due to inclement weather conditions, was insignificant compared to variation in passenger car traffic. This study also investigated the temporal transferability of the developed winter weather model to test if a model can be applied irrespective of the time when it was developed. In addition, an attempt was made to check if the model coefficients could be optimized differently for different classes of traffic for estimating correct traffic variations. To evaluate transferability, the performance of both dummy variable regression and naive (without dummy variables) models was investigated. The results revealed that the dummy variable regression models show better performance for passenger car traffic and total traffic and naive winter weather models give better results for truck traffic.

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Spatial Transferability Testing of Dummy Variable Winter Weather Model Using Traffic Data Collected from Five Geographically Dispersed Weigh-in-Motion Sites in Alberta Highway Systems

Journal of Transportation Engineering Part A Systems ◽

10.1061/jtepbs.0000449 ◽

2020 ◽

Vol 146 (11) ◽

pp. 04020128 ◽

Cited By ~ 1

Author(s):

Hyuk-Jae Roh

Keyword(s):

Traffic Data ◽

Winter Weather ◽

Dummy Variable ◽

Geographically Dispersed ◽

Weigh In Motion ◽

Weather Model ◽

Spatial Transferability

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The Needed Features of Connected and Automated Vehicles to Prevent Passenger Car Crashes Caused by Driving Errors

Future Transportation ◽

10.3390/futuretransp1020021 ◽

2021 ◽

Vol 1 (2) ◽

pp. 370-386

Author(s):

Roni Utriainen ◽

Markus Pöllänen

Keyword(s):

Traffic Safety ◽

Sudden Change ◽

Weather Conditions ◽

Loss Of Control ◽

Automated Vehicles ◽

Passenger Cars ◽

Passenger Car ◽

Road Users ◽

Adverse Weather ◽

Car Crashes

Connected and automated vehicles (CAVs) can enhance traffic safety considerably. However, as CAVs are currently under development, the safety impact cannot be assessed directly. In this study, driver-managed passenger car crashes with fatalities in Finland were investigated qualitatively to evaluate the needed features of the CAVs to avoid these crashes. The focus was on single-car crashes and collisions between passenger cars, in which the immediate risk factor was a driving error (n = 48). Most of the analysed crashes (33 of 48) were due to loss of control with typically adverse weather or road conditions. To avoid these crashes, a CAV should be able to adjust its speed according to the conditions. In 13 of 48 crashes, the car was under control prior to the crash. A reliable capability to recognize other road users is an important CAV feature, because observational errors were common in these cases. In addition, communication between the vehicles could assist in avoiding intersection crashes and crashes caused by a sudden change in weather conditions. This study increases knowledge on crashes related to driving errors and the needed features of CAVs to avoid these crashes. In particular, CAVs’ feature to adjust the speed is important, because cases of loss of control in adverse weather or road conditions were typical events.

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A risk-based approach to winter road surface condition classification

Canadian Journal of Civil Engineering ◽

10.1139/cjce-2016-0215 ◽

2017 ◽

Vol 44 (3) ◽

pp. 182-191

Author(s):

Liping Fu ◽

Lalita Thakali ◽

Tae J. Kwon ◽

Taimur Usman

Keyword(s):

Surface Condition ◽

Risk Index ◽

Weather Conditions ◽

Road Surface ◽

Winter Weather ◽

Single Class ◽

The Road ◽

Consistent Condition ◽

Adverse Weather ◽

Highway Network

This paper presents a risk-based approach for classifying the road surface conditions of a highway network under winter weather events. A relative risk index (RRI) is developed to capture the effect of adverse weather conditions on the collision risk of a highway in reference to the normal driving conditions. Based on this index, multiple risk factors related to adverse winter weather conditions can be considered either jointly or separately. The index can also be used to aggregate different types of road conditions observed on any given route into a single class for risk-consistent condition classification and reporting. Two example applications are shown to illustrate the advantages of the proposed approach.

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Factors Affecting Benefits of Implementing Special Signal Timing Plans for Inclement Weather Conditions

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/0361198105192500115 ◽

2005 ◽

Vol 1925 (1) ◽

pp. 146-155 ◽

Cited By ~ 1

Author(s):

Seli J. Agbolosu-Amison ◽

Adel W. Sadek ◽

Brandon Henry

Keyword(s):

Weather Conditions ◽

Weather Event ◽

Factors Affecting ◽

Traffic Demand ◽

Control Delay ◽

Signal Coordination ◽

Inclement Weather ◽

Flow Parameters ◽

Adverse Weather ◽

The Impact

Gridlock along arterial systems in cold climates is often the result of adverse weather conditions, which can render the normal signal coordination plans unsuitable as a result of changes in the traffic flow parameters. The current study aims at understanding the impact of different factors on the magnitude of the operational benefits to be expected from implementing special timing plans for inclement weather. The factors investigated include ( a) the characteristics of the signalized corridor, ( b) the type of the simulation model used in the evaluation, ( c) the level of traffic demand, and ( d) the duration of the inclement weather event. To achieve the study's objective, two signalized arterial corridors are selected as case studies, and several simulation experiments are conducted. The results show that signal retiming during inclement weather can result in significant operational benefits (as high as a 20% reduction in control delay in some cases). The results also show that the benefits appear to be greatest when traffic loads are close to capacity and tend to decrease when the available capacity is exceeded. Finally, a significant increase in the benefits is realized with the increase in the duration of the inclement weather event. In one experiment, retiming the signals resulted in a 36% reduction in control delay for a 2-h snow event as opposed to only 18% for a 1-h event.

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The Determination of Rubber in Atmospheric Dusts

Rubber Chemistry and Technology ◽

10.5254/1.3545014 ◽

1973 ◽

Vol 46 (1) ◽

pp. 232-241 ◽

Cited By ~ 14

Author(s):

J. A. Cardina

Keyword(s):

Gas Chromatography ◽

Quantitative Determination ◽

Residential Area ◽

Truck Traffic ◽

Pyrolysis Gas ◽

Passenger Car ◽

Pyrolysis Gas Chromatography ◽

Car Traffic

Abstract Samples of airborne dusts were collected near heavily traveled highways and analyzed for rubber by pyrolysis gas chromatography. Dust samples obtained in truck traffic gave pyrolysis chromatograms markedly different from those obtained in passenger car traffic, and which correspond with those derived from known tire tread compounds. The distinction was based on the presence of styrene or dipentene in the pyrolyzates. Quantitative determination of dusts from the Pittsburgh Liberty Tunnel and the Akron Expressway Interchange show the presence of 1.5 to 2.5 per cent rubber, whereas dust from a residential area shows about 0.25 per cent. Methods were developed for sampling atmospheric dusts and preparing small amounts in a form suitable for pyrolysis.

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