The effect of synoptic scale weather and topography on road surface temperatures in Devon

Mclean, Peter James

January 1995

Microclimates of various road weather stations in Devon were examined. Road surface temperatures were measured during various synoptic conditions. Data from the thermal mapping exercise conducted by Vaisala TMI were analysed and categorised as clear and calm, cloudy and windy, and a condition between the two extremes. Results indicate valleys to be relative cold spots in clear conditions, and high altitude stations are cold spots during cloudy conditions. A separate case study during the cold spell of February 1991 reinforced the conclusion and extended these views county wide. Coastal stations with surface winds were observed to be 1 to 3 deg.C warmer than inland stations. Reaction times, the delay in road temperature reaction due to synoptic change, showed for the most difficult forecasting scenario on the passage of a cold front, small reaction times (less than 30 minutes) at exposed sites when clear skies resulted, sheltered sites having a reaction time of up to 2 hours. Sheltered sites in valleys had the largest temperature drop due to cold air drainage. A surface climate model was used in retrospect to predict road surface temperatures at night, each station having its own characteristic exposure. Cloud change was estimated from satellite images. Results indicate predicted minimum temperature within 0.5 deg.C of observation. Real time forecasts were tried and an accuracy of 65% at this level was achieved. These results were equal or better than the existing "Open Road" forecasts.

307.12

Winter road maintenance

Quantifying the Mobility Benefits of Winter Road Maintenance – A Simulation Based Approach

Shahdah, Usama

January 2009

A good understanding of the relationship between highway performance, such as crash rates and travel delays, and winter road maintenance activities under different winter weather and traffic conditions is essential to the development of cost-effective winter road maintenance policies and standards, operation strategies and technologies. This research is specifically concerned about the mobility benefit of winter road maintenance. A microscopic traffic simulation model is used to investigate the traffic patterns under adverse weather and road surface conditions. A segment of the Queen Elizabeth Way (QEW) located in the Great Toronto Area, Ontario is used in the simulation study. Observed field traffic data from the study segment was used in the calibration of the simulation model. Different scenarios of traffic characteristics and road surface conditions as a result of weather events and maintenance operations are simulated and travel time is used as a performance measure for quantifying the effects of winter snow storms on the mobility of a highway section. The modeling results indicate that winter road maintenance aimed at achieving bare pavement conditions during heavy snowfall could reduce the total delay by 5 to 36 percent, depending on the level of congestion of the highway. The simulation results are then applied in a case study for assessing two maintenance policy decisions at a maintenance route level.

Winter road maintenance

Mobility

Civil Engineering

Quantifying the Mobility Benefits of Winter Road Maintenance – A Simulation Based Approach

Shahdah, Usama

January 2009

A good understanding of the relationship between highway performance, such as crash rates and travel delays, and winter road maintenance activities under different winter weather and traffic conditions is essential to the development of cost-effective winter road maintenance policies and standards, operation strategies and technologies. This research is specifically concerned about the mobility benefit of winter road maintenance. A microscopic traffic simulation model is used to investigate the traffic patterns under adverse weather and road surface conditions. A segment of the Queen Elizabeth Way (QEW) located in the Great Toronto Area, Ontario is used in the simulation study. Observed field traffic data from the study segment was used in the calibration of the simulation model. Different scenarios of traffic characteristics and road surface conditions as a result of weather events and maintenance operations are simulated and travel time is used as a performance measure for quantifying the effects of winter snow storms on the mobility of a highway section. The modeling results indicate that winter road maintenance aimed at achieving bare pavement conditions during heavy snowfall could reduce the total delay by 5 to 36 percent, depending on the level of congestion of the highway. The simulation results are then applied in a case study for assessing two maintenance policy decisions at a maintenance route level.

Winter road maintenance

Mobility

Civil Engineering

Patterns in Road Maintenance: An Analysis of San Diego Roads

Mahavier, Kendall Caitlin Alexandra

21 December 2018

No description available.

Economics

Road quality

public services

road maintenance

Statligt och kommunalt väghållaransvar : En studie kring allmän väghållning och kommunala väghållningsområden / State and m unicipal road maintenance responsibility : A study of public road maintenance and municipal road maintenance areas

Tällberg, Eric

January 2018

Sveriges vägnät utgör en viktig del av det sammanhängande transportsystemet. Vägnätet är indelat i tre olika vägtyper, allmän väg, kommunal gata och enskild väg, vilka i sin tur regleras i olika lagstiftningar. För att säkerställa att vägarna är öppna och framkomliga finns det för varje väg en avsedd väghållare som är ansvarig för byggande och driften av vägen. Väghållare för allmän väg är primärt staten (genom Trafikverket), men om det främjar en god och rationell väghållning kan en kommun kan förordnas som väghållare för allmänna vägar inom hela eller delar av kommunen. När en kommun förordnas som allmän väghållare upprättas ett kommunalt väghållningsområde runt huvudorten inom vilket kommunen blir huvudsaklig väghållare.  Genom tillämpning av kombinerade metoder syftar detta arbete till att utifrån en historisk översikt och gällande institutioner översiktligt studera det statliga och kommunala väghållaransvaret, med fokus på allmänna vägar. Arbetet kombinerar en litteraturstudie, en enkätundersökning och ett antal mindre fallstudier, vilka avser att närmare undersöka synen på dagens fördelning av väghållaransvar, förändringar i väghållaransvar mellan stat och kommun, samt de kommunala väghållningsområdena roll och funktion i praktiken.  Arbetet visar på att kommunerna idag generellt ser positivt på det kommunala väghållaransvaret för allmänna vägar. Vid förändringar i väghållaransvaret är det primärt en kommun som övertar ansvaret från staten, och då vanligtvis genom att kommunen övertar vägrätten genom en ändring i det kommunala väghållningsområdet. Att ändringar i väghållaransvar mellan stat och kommun idag kräver överenskommelser, samtidigt som det saknas tvångsmedel, kan ifrågasättas ur både effektivitets- och rättviseaspekter. De incitament som idag framhålls för ett kommunalt väghållaransvar är samhällsekonomiska vinster, dock påpekas det av ett antal kommuner att dessa inte i tillräcklig omfattning kompenserar den ökade ekonomiska bördan.  Vidare har det konstaterats i arbetet att den kommunala kunskapen kring väghållarfrågor är viktig och skulle behöva förbättras. Ökad kompentens samt bättre information ifrån Trafikverket skulle potentiellt kunna leda till att fler samhällsekonomiska ändringar av väghållare genomförs, att fler kommuner engagerar sig i den allmänna väghållningen och att kommunerna i större utsträckning utnyttjar sin roll som allmän väghållare. Dagens regelverk rörande väghållaransvar leder även till en viss splittring av vägnätet inom tätorter då en väg i kommunal väghållning potentiellt kan ändra karaktär mellan allmän väg, gata och enskild väg flera gånger. Något som eventuellt skulle kunna motverkas av en mer enhetlig lagstiftning och större distinktioner mellan statlig och kommunal allmän väghållning. / The road network in Sweden is a crucial part of the overall transportation system. Today, the road network is divided into three different types of roads, public roads, municipal streets and private roads. These different types of roads are in turn regulated by different legislations. To ensure that the roads are open and accessible to the public, there is a designated road manager for each road. The road manager is the responsible party for the construction and operation of roads. The road manager for public roads are primarily the state, but if it promotes rational road maintenance, a municipality can be appointed as public road manager. When municipalities are appointed as road manager for public roads, a municipal road maintenance area is established around the main town, within which the municipality becomes the main road manager.  Based on a historical overview and current institutions, this work aims at studying state and municipal road maintenance responsibility for public roads, using a combined method strategy. The paper combines a literature study, a survey and a number of minor case studies, which all aims to study the distribution of road maintenance responsibility today, changes in road maintenance responsibilities, as well as the function of the municipal road maintenance areas. The results in the thesis shows that the municipalities today generally are positive towards a municipal road maintenance responsibility for public roads. In cases of changes in road maintenance responsibility, the most common case is that a municipality that takes over responsibility from the state. The most common way for a municipality to take over a responsibility for a public road is by changing the municipal road maintenance area, and thereby also taking over the public road right. The fact that changes in road maintenance responsibility between the state and a municipality today require agreements, while there are no compulsory methods, can be questioned from both efficiency and justice aspects. The incentives that today are emphasized for a municipal road maintenance responsibility are mainly of socioeconomic aspects. However, most municipalities emphasize that the economic burden from a road maintenance responsibility today aren’t sufficiently compensated by socioeconomic gains.  Furthermore, it has been found that the municipal knowledge regarding road maintenance issues is important and something that needs to be improved. Increased knowledge could potentially lead to more socioeconomic changes of road managers and that municipalities take greater advantage of their role as public road managers. The current regulations concerning road maintenance may also lead to a certain shattering of the road network within urban areas. This since a road with a municipal road maintenance responsibility can change between being a public road, municipal street and private road multiple times. Something that could potentially be compensated by the use of a more uniform legislation where greater distinctions are made between state and municipal public road maintenance.

Municipal road maintenance areas

Public roads

Road maintenance responsibility

Road maintenance

Road manager

Allmän väg

Kommunala väghållningsområden

Väghållaransvar

Väghållare

Väghållning

Engineering and Technology

Teknik och teknologier

Investigating critical challenges of maintaining road infrastructure in the Limpopo Province : a case of Makhado Local Municipality

Musitha, Pandelani Mumsy

January 2018

Thesis (MPA.) -- University of Limpopo, 2018 / Road infrastructure is usually regarded as an economic backbone of the society. Local government has a responsibility to ensure that local roads are maintained in order to facilitate a movement of people, goods and services. The study was undertaken on the premise that local roads in Makhado Local Municipality are not promoting safety. That is, road infrastructure in this municipality is considered to be deteriorating. It is against this background that the researcher found it worthwhile to investigate critical challenges of maintaining road infrastructure in the Makhado Local Municipality focusing on the following towns, Makhado, Vuwani, Waterval and Dzanani only excluding unpaved communities and other small townships, namely Tshikota and Vleifontein. The objectives of the research were to determine the condition and effects of municipal road infrastructure within Makhado Local Municipality; to examine the legal framework governing the local municipality in the context of road infrastructure provision and maintenance as well as to recommend strategies to address challenges of road infrastructure within the municipality. The research employed both qualitative and qualitative in nature. A purposive research sampling approach was used to determine the inclusion of relevant respondents to the study. The research found out that the status of road infrastructure affect various people of different biographical background within the four towns of Makhado Local Municipality in a similar way. In the findings, the study highlight the fact that deteriorating roads conditions are often due to the following: a lack of professionals such as engineers to perform the necessary environmental scanning and identify problems in order to design the roads that suit the area, soil, landscape and climate and that other factors affecting the road infrastructure include corruption in procurement of road infrastructure projects; a lack of accountability of municipal officials; a lack or poor community involvement; and poor monitoring and maintenance of road projects. The study recommends that individuals with knowledge, expertise and skills be employed and further provide proper monitoring of the road projects.

Municipality

Road infrastructure

Measurements for winter road maintenance

Riehm, Mats

January 2012

Winter road maintenance activities are crucial for maintaining the accessibility and traffic safety of the road network at northerly latitudes during winter. Common winter road maintenance activities include snow ploughing and the use of anti-icing agents (e.g. road salt, NaCl). Since the local weather is decisive in creating an increased risk of slippery conditions, understanding the link between local weather and conditions at the road surface is critically important. Sensors are commonly installed along roads to measure road weather conditions and support road maintenance personnel in taking appropriate actions. In order to improve winter road maintenance, more precise information about road surface conditions is essential. In this thesis, different methods for estimation of road weather are developed, discussed and tested. The methods use the principles of infrared thermometry, image analysis and spectroscopy to describe ice formation, snow accumulation and road surface wetness in specific patches or along road sections. In practical applications, the methods could be used for better planning of snow clearing operations, forecasting of ice formation and spreading of road salt. Implementing the proposed methods could lead to lower maintenance costs, increased traffic safety and reduced environmental impact. / <p>QC 20121116</p>

energy efficiency

road salt

A Mathematical Model for Winter Maintenance Operations Management

Trudel, Mathieu

January 2005

Scheduling of winter maintenance operations such as plowing or salting is a difficult and complex problem. Proper selection and timing of such operations is critical to their effectiveness, however scheduling decisions must often be made with strict time and resource limitations imposed upon them. A decision support system which analyses current road conditions and makes scheduling suggestions based on them would be a valuable step toward improving the quality of treatment, while simultaneously reducing the burden of scheduling on maintenance managers. This thesis proposes a real-time scheduling model based on an Operations Research framework that can be used by maintenance managers to develop and evaluate alternative resources allocation plans for winter road maintenance operations. The scheduling model is implemented as an Integer Linear Program and is solved using off-the-shelf software packages. The scheduling model takes into account a wide range of road and weather condition factors such as road network topology, road class, weather forecasts, and contractual service levels, and produces a vehicle dispatch schedule that is optimal with respect to operating costs and quality of service. A number of heuristics are also explored to aid in efficient approximations to this problem.

Civil & Environmental Engineering

Winter Road Maintenance

Operations Research

A Mathematical Model for Winter Maintenance Operations Management

Trudel, Mathieu

January 2005

Scheduling of winter maintenance operations such as plowing or salting is a difficult and complex problem. Proper selection and timing of such operations is critical to their effectiveness, however scheduling decisions must often be made with strict time and resource limitations imposed upon them. A decision support system which analyses current road conditions and makes scheduling suggestions based on them would be a valuable step toward improving the quality of treatment, while simultaneously reducing the burden of scheduling on maintenance managers. This thesis proposes a real-time scheduling model based on an Operations Research framework that can be used by maintenance managers to develop and evaluate alternative resources allocation plans for winter road maintenance operations. The scheduling model is implemented as an Integer Linear Program and is solved using off-the-shelf software packages. The scheduling model takes into account a wide range of road and weather condition factors such as road network topology, road class, weather forecasts, and contractual service levels, and produces a vehicle dispatch schedule that is optimal with respect to operating costs and quality of service. A number of heuristics are also explored to aid in efficient approximations to this problem.

Civil & Environmental Engineering

Winter Road Maintenance

Operations Research

Models for quantifying safety benefit of winter road maintenance

Usman, Taimur

January 2011

In countries with severe winters such like Canada, winter road maintenance (WRM) operations, such as plowing, salting and sanding, play an indispensible role in maintaining good road surface conditions and keeping roads safe. WRM is, however, also costly, both monetarily and environmentally. The substantial direct and indirect costs associated with WRM have stimulated significant interest in quantifying the safety and mobility benefits of winter road maintenance, such that systematic cost-benefit assessment can be performed. A number of studies have been initiated in the past decade to identify the links between winter road safety and factors related to weather, road, and maintenance operations. However, most of these studies have focused on the effects of adverse weather on road safety. Limited efforts have been devoted to the problem of quantifying the safety benefits of winter road maintenance under specific road weather conditions. Moreover, the joint effects of and complex interactions between road driving conditions, traffic and maintenance and their impact on traffic safety have rarely been studied. This research aims to determine the effect of WRM on road safety during snow storm events and develop models that can be used to quantify the safety benefit of alternative winter road maintenance policies, strategies and practices. Two integral aspects of collision risk were investigated, namely, collision frequency and severity. Collision frequency models were developed using winter storm collision data compiled for six winter seasons (2000 to 2006) for a total of 31 highway routes across Ontario. A comprehensive measure, namely, road surface condition index (RSI), was proposed to represent the road surface conditions during a variety of snow events. RSI was used as a surrogate measure to capture the effects of WRM. Other factors related to weather, traffic and road features were also accounted for in the analysis. Problems associated with data aggregation were also investigated. For this purpose, two different datasets were formed, namely, event-based data (EBD) which aggregates data by snow storm events and hourly based data (HBD) which includes hourly records of collision counts and other related factors. These two data sets of different aggregation levels were then used to investigate the effects of data aggregation and correlation (within – event) as well as to develop models for different purposes of benefit analyses. For EBD, Negative Binomial models and Generalized Negative Binomial models were calibrated whereas for HBD, Generalized Negative Binomial models and multilevel Poisson Lognormal models were calibrated. Generalized Negative Binomial models were found to best fit the data for both datasets. It was found that addition of site specific variables improves model fit. RSI and exposure were found significant for all the models and datasets. Weather factors such as visibility, wind speed, precipitation, and air temperature were also found to have statistically significant effects on collision frequency. All the models were consistent in terms of effects of different variables. The EBD models are useful to quantify the effect of different maintenance service standards and policies with limited information on the details of the weather events and traffic. On the other hand, HBD models have a higher level of reliability capable of providing more accurate estimates on road accidents. As a result, they are useful for determining the effects of different treatment operations. Several examples were employed to demonstrate the application of the developed models, such as quantifying the benefits of alternative maintenance operations and evaluating the effects of different service standards using safety as a performance measure. To enable a comprehensive risk analysis, collisions under both all-weather conditions and snow storm conditions over the six winter seasons were analyzed to identify the relationship between collision severity and various factors related to road weather and surface conditions, road characteristics, traffic, and vehicles etc., on collision severity. A multilevel modeling framework was introduced to capture the inherent hierarchy between collisions, vehicles and persons involved within the collision data. For each collision data set, three alternative severity models, namely, multinomial models, ordered logit models and binary logit models, were calibrated and compared. It was found that multilevel multinomial logit models were best fit to the data. Moreover issues related to different levels of aggregation were also discussed and results from occupant based data were found to be more reasonable and in line with general literature. Different individual, vehicle, environment and accident location factors were found to have a statistically significant effect on the injury severity levels. Contributing factors at the individual and vehicle levels include driver condition, driver sex, driver age, position in vehicle, use of safety device such as seat belt, vehicle type, vehicle age and vehicle condition. Roadway and environment factors include number of lanes, speed limit, road alignment, RSI/road surface condition, wind speed, and visibility. Other factors include light, and traffic volume. Two case studies were conducted to demonstrate the application of the developed models in conjunction with the accident frequency models for cost benefit analysis. This research was the first to investigate the direct link between road surface conditions and collisions at an operational level. It has been shown that the developed models are capable of evaluating alternative winter road maintenance policies and operations and assessing the safety benefit of a particular winter road maintenance strategy or decision. This research is also the first to conduct an in-depth analysis on the problem of winter road safety at a disaggregate level that captures detailed temporal variation (e.g., hourly and by storm event)) within small spatial aggregation units (road sections corresponding to actual patrol routes). The safety models developed from this research could be easily incorporated into a decision support tool for conducting what-if analysis of alternative winter road maintenance policies and methods. Moreover these models could provide a mechanism to estimate road safety level based on road surface as well as weather and traffic conditions and therefore could potentially be used for generating safety related information for travelers as part of a winter traffic management scheme. Directions for future work are also provided at the end of this document.

Winter road maintenance

Safety analysis

Statistical models

Civil Engineering