Your search keyword '"hard shoulder running"' showing total 17 results

1. Hidden Markov Model-Based Dynamic Hard Shoulders Running Strategy in Hybrid Network Environments.

Author

Yao, Jinqiang, Qian, Yu, Feng, Zhanyu, Zhang, Jian, Zhang, Hongbin, Chen, Tianyi, and Meng, Shaoyin

Subjects

HIDDEN Markov models, MARKOV processes, TRAFFIC congestion, COMPUTER network traffic, TRAVEL time (Traffic engineering), TRAFFIC flow, SHOULDER

Abstract

With the development of vehicle-road network technologies, the future traffic flow will appear in the form of hybrid network traffic flow for a long time. Due to the change in traffic characteristics, the current hard shoulder running strategy based on traditional traffic characteristics cannot effectively serve the hybrid network traffic flow scenario, and will even lead to the further deterioration of traffic congestion. In order to propose a hard shoulder running strategy suitable for a hybrid network environment, a traffic breakdown prediction method based on a hidden Markov model was established. Secondly, the characteristics of traffic breakdown in a hybrid network environment were analyzed. Finally, based on the traffic breakdown characteristics in a hybrid network environment, a dynamic hard shoulder running method based on the hidden Markov model was proposed. The effectiveness of HMMD-HSR was verified by simulation and comparison with HMM-HSR, LMD-HSR, and N-HSR. The simulation results show that the HMMD-HSR proposed in this paper can improve operation efficiency and reduce travel time in a congested expressway. [ABSTRACT FROM AUTHOR]

Published

2024

2. Hidden Markov Model-Based Dynamic Hard Shoulders Running Strategy in Hybrid Network Environments

Author

Jinqiang Yao, Yu Qian, Zhanyu Feng, Jian Zhang, Hongbin Zhang, Tianyi Chen, and Shaoyin Meng

Subjects

hybrid network environments, breakdown probability, discrete time hidden Markov chain, active traffic management, hard shoulder running, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

With the development of vehicle-road network technologies, the future traffic flow will appear in the form of hybrid network traffic flow for a long time. Due to the change in traffic characteristics, the current hard shoulder running strategy based on traditional traffic characteristics cannot effectively serve the hybrid network traffic flow scenario, and will even lead to the further deterioration of traffic congestion. In order to propose a hard shoulder running strategy suitable for a hybrid network environment, a traffic breakdown prediction method based on a hidden Markov model was established. Secondly, the characteristics of traffic breakdown in a hybrid network environment were analyzed. Finally, based on the traffic breakdown characteristics in a hybrid network environment, a dynamic hard shoulder running method based on the hidden Markov model was proposed. The effectiveness of HMMD-HSR was verified by simulation and comparison with HMM-HSR, LMD-HSR, and N-HSR. The simulation results show that the HMMD-HSR proposed in this paper can improve operation efficiency and reduce travel time in a congested expressway.

Published

2024

3. Safety Effects of Freeway Hard Shoulder Running.

Author

Choi, Jaisung, Tay, Richard, Kim, Sangyoup, Jeong, Seungwon, Kim, Jeongmin, and Heo, Tae-Young

Subjects

EMPIRICAL Bayes methods, EXPRESS highways, TRAFFIC lanes, TRAFFIC congestion, TRAFFIC accidents, ROAD shoulders

Abstract

Featured Application: Hard shoulder running (HSR) has been increasingly used in recent years as a more sustainable way to alleviate congestion and increase the efficiency of freeways in many countries. We found that freeways experienced more crashes after installing HSR, but most of the crashes were less severe. Hence, caution should be exercised when designing and implementing hard shoulder running to reflect the trade-off between improvements in efficiency and a reduction in safety. Also, HSR installation on lengthy freeways with two travel lane configurations (without HSR) should be avoided. Hard shoulder running (HSR) has been increasingly used as a sustainable and viable way to increase road capacity. This study investigated the safety effect of HSR on freeways in South Korea using the empirical Bayes method. This study found an increase in the total number of crashes. In terms of crash severity, a higher proportion of crashes (25.3%) on 2(3)-lane sections were found to be serious (involving injuries and/or fatalities) compared to those on 4(5)-lane sections (3.6%). Also, a positive relationship was found between the length of the hard shoulder running and changes in crash frequencies. Thus, hard shoulder running on lengthy 2(3)-lane freeways should be avoided. [ABSTRACT FROM AUTHOR]

Published

2019

4. Safety Effects of Freeway Hard Shoulder Running

Author

Jaisung Choi, Richard Tay, Sangyoup Kim, Seungwon Jeong, Jeongmin Kim, and Tae-Young Heo

Subjects

hard shoulder running, crashes involving injuries and/or fatalities, empirical Bayes method, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Hard shoulder running (HSR) has been increasingly used as a sustainable and viable way to increase road capacity. This study investigated the safety effect of HSR on freeways in South Korea using the empirical Bayes method. This study found an increase in the total number of crashes. In terms of crash severity, a higher proportion of crashes (25.3%) on 2(3)-lane sections were found to be serious (involving injuries and/or fatalities) compared to those on 4(5)-lane sections (3.6%). Also, a positive relationship was found between the length of the hard shoulder running and changes in crash frequencies. Thus, hard shoulder running on lengthy 2(3)-lane freeways should be avoided.

Published

2019

5. Effectiveness of travel time reliability indicators in the light of the assessment of dynamicmanaged lane strategy.

Author

Bhouri, Neila, Aron, Maurice, Lebacque, Jean Patrick, and Haj-Salem, Habib

Subjects

*TRAVEL time (Traffic engineering), *TRAFFIC congestion, *TRAFFIC safety

Abstract

The aim of traffic management is to ensure a high quality of service for a maximum number of users by decreasing congestion and increasing safety. Uncertainty of travel times decreases the quality of service and leads end users to modify their plans regardless of the average travel time. Indicators describing travel time reliability are being developed and should be used in the future both for the optimization and for the assessment of active traffic management operations. This article discusses the efficiency of certain reliability indicators in an ex-post assessment of a traffic management strategy. Ex-post assessment is based on an observational before-after study. As some factors other than the studied management strategy may intervene between the two periods, and as most reliability indicators require knowledge of the full travel time distribution and not only its average, amethodology is developed for the identification of the impact of these exogenous factors on the whole distribution. Many reliability indicators are split into different parts allowing the identification of the part due to the management strategy impact. The methodology is tested numerically on a managed lane operation consisting of Hard Shoulder Running (HSR) at rush hour on a section of a French motorway. The variation of some reliability indicators appearsmisleading, whereas the splitting of the indicators increases our understanding of the strategy and highlights its impact. The paper gives the reliability assessment of the HSR field test and discusses different reliability indicators to identify their potential performances and shortcomings. [ABSTRACT FROM AUTHOR]

Published

2017

6. Observational study on the pavement performance effects of shoulder rumble strip on shoulders.

Author

Coffey, Sean and Park, Seri

Subjects

*PERFORMANCE of pavements, *RUMBLE strips, *ROAD safety measures, *CONSTRUCTION project management, *PAVEMENT design & construction

Abstract

Rumble strip implementation has shown a constant increase with its safety benefits. Rumble strips are milled into the roadway shoulder to produce noise and vibrations when driven on. With the milling process, the pavement performance is expected to be negatively impacted by the decreased depth, though not mathematically quantified. Using methods defined by the Long-Term Pavement Performance Program, the severity of the shoulder site's distresses, with and without shoulder rumble strips, will be quantified. The quantification would permit the design to compensate for the impact. This design compensation allows the implementation of hard shoulder running, the use of shoulder as a travel lane during congestion, and retains the shoulder rumble strip safety instead of removing, as suggested by some proposed projects. While hard shoulder running would not impact specific time periods, the safety benefit of rumble strips could be needed at any time. This study aims to quantify the rumble strip impact to enable the full shoulder strength for hard shoulder running while retaining the safety benefits of rumble strips. [ABSTRACT FROM AUTHOR]

Published

2016

7. State of the Non-operations Based Research of Hard Shoulder Running.

Author

Coffey, Sean and Park, Seri

Subjects

TRAFFIC safety, TRAFFIC congestion, HIGHWAY engineering, TRAFFIC flow, PAVEMENTS

Abstract

Hard Shoulder Running (HSR) is an operationally focused active traffic management strategy to optimize the utilization of the roadway, specifically the shoulder portion of the roadway geometry. Roadway networks needs to be more sustainable by utilizing its full capacity before using more materials to construct an expanded roadway. The understanding of the operational benefits has been the focus of much HSR research as it is an operational focused Active Traffic Management (ATM) strategy. Before HSR can be utilized, its effects on safety and the pavement structure on the shoulder need to be understood. While it has been found to improve the road operation, it must be safe and structurally sound. This paper provides a literature review of the HSR research that analyzed the safety effects and the pavement performance effects. HSR is a quality strategy that can reduce congestion, car emissions, and paved lane use requirements through improved traffic flow. [ABSTRACT FROM AUTHOR]

Published

2016

8. Safety impact of using the hard shoulder during congested traffic. The case of a managed lane operation on a French urban motorway

Author

Aron, Maurice, Seidowsky, Régine, and Cohen, Simon

Subjects

*EXPRESS highways, *TRAFFIC congestion, *TRAFFIC engineering, *EMPIRICAL research, *STATISTICAL correlation, *COMPARATIVE studies, *TRAFFIC accidents

Abstract

Abstract: Motorway operators deploy dynamic lane management operations to reduce recurrent congestions. The aim of this paper is to contribute to the safety assessment of such an operation which has been introduced on a French urban motorway weaving section. It consists in the opening of an auxiliary lane partly taken on the hard shoulder. The assessment is based on the observational before-after method in road safety, which compares the empirical number of accidents with a prediction of the number of those which would have occurred, had no change happened. A comparison site is used to identify the trend on the number of accidents between the before and after periods, independently of the effect of the operation. A variant of this method, which takes into account the traffic regimes, is developed here. This variant removes some bias, which may exist when the traffic patterns on the comparison site and on the assessed site are different. We highlight here how critical is the choice of the comparison site; how significant is the correlation between the risks of accidents by type and the traffic regimes, because that correlation, if changing over time, induces a bias; how meaningful is the provided analytic expression of the bias. Although inconclusive – due to the small number of recorded accidents – concerning the final safety impact of the operation, the main questions are discussed - reduction in traffic density leading to a reduction in the number of accidents, migration of traffic towards the opening hours, migration of density and accidents downstream. This contributes to a better understanding of the evolution of traffic safety and of the safety impact of the lane management operation. [Copyright &y& Elsevier]

Published

2013

9. Evaluation of maintenance procedures for hard shoulder running, phase 1

Author

Green, Roger and Green, Roger

Subjects

Roads Shoulders Maintenance and repair. Ohio, Convertible lanes and roads Planning. Ohio, Traffic congestion Management Ohio., Routes Accotements Entretien et réparations. Ohio, Voies banalisées Planification. Ohio, Roads Shoulders Maintenance and repair., Traffic congestion Management., Ohio.

Abstract

To address traffic congestion, the Ohio Department of Transportation (ODOT) plans to use the inside eastbound shoulder of I-670 on the east side of Columbus as an additional traffic lane during the afternoon commute as a trial of hard shoulder running active traffic management. In order to fully implement hard shoulder running a review and possible updates of the Department's operation procedures are necessary. The purpose of this research is to identify and recommend safe, efficient, and cost effective procedures and equipment which keep the shoulder clear of debris for use by traffic. A detail literature search was conducted to identify equipment for cleaning shoulders and agencies with hard shoulder running. These agencies were contacted to learn their procedures and equipment used for cleaning shoulders. ODOT Franklin County garage and central office Traffic Management Center personnel were interview to learn current procedures for clearing shoulders. The ODOT Franklin County crew demonstrated current shoulder cleaning procedures on I-270 in northeast Columbus. Samples of the collected debris were obtained and the composition determined. Detailed information for identified shoulder cleaning equipment was compiled from which marginal shoulder cleaning cost per mile, operating speed, debris type collected, and safety of operation were determined and used for evaluating each cleaning procedure using a decision matrix. Recommendations were made with regard to cleaning equipment and schedules; cooperation between ODOT, safety patrol, bus operator, and law enforcement; current procedures for clearing disabled vehicles and debris; and operation during inclement weather. Based on a decision matrix analysis, the following equipment was recommended for further analysis under phase 2: street sweeper, Road Rake, and magnetic street sweeper. A phase 2 work plan was provided.

Published

2019

10. A Q-LEARNING BASED INTEGRATED VARIABLE SPEED LIMIT AND HARD SHOULDER RUNNING CONTROL TO REDUCE TRAVEL TIME AT FREEWAY BOTTLENECK

Author

Zhou, Weiyi and Zhou, Weiyi

Abstract

To increase traffic mobility and safety, several types of active traffic management (ATM) strategies, such as variable speed limit (VSL) and hard shoulder running (HSR), are implemented in many countries. While all kinds of ATM strategies show promise in releasing traffic congestion, many studies indicate that stand-alone strategies have very limited capability. This paper proposes an integrated VSL and HSR control strategy based on a reinforcement learning (RL) technique, Q-learning (QL). The proposed strategy bridges a direct connection between the traffic flow data and the ATM control strategies via intensive self-learning processes thus reduces the need for human knowledge. A typical congested interstate highway, I-270 in Maryland, U.S. is simulated using a dynamic traffic assignment (DTA) model to evaluate the proposed strategy. Simulation results indicated that the integrated strategy outperforms the stand-alone strategies and traditional feedback-based VSL strategy in mitigating congestions and reducing travel time on the freeway corridor.

Published

2019

11. Identify Optimal Traffic Condition and Speed Limit for Hard Shoulder Running Strategy

Author

Fan Ding, Fan Yang, Huachun Tan, Fan Wang, and Bin Ran

Subjects

Mathematical optimization, Computer science, Geography, Planning and Development, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, hard shoulder running, Traffic volume, 0502 economics and business, GE1-350, Mean-shift, highway traffic management, Cluster analysis, 0105 earth and related environmental sciences, 050210 logistics & transportation, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Speed limit, 05 social sciences, TOPSIS, decision optimization, Metropolitan area, Spectral clustering, Hierarchical clustering, Environmental sciences, Traffic congestion, clustering method

Abstract

Highway system is experiencing increasing traffic congestion with fast-growing number of vehicles in metropolitan areas. Implementing traffic management strategies such as utilizing the hard shoulder as an extra lane could increase highway capacity without extra construction work. This paper presents a method of determining an optimal traffic condition and speed limit of opening hard shoulder. Firstly, the traffic states are clustered using K-Means, mean shift, agglomerative and spectral clustering methods, and the optimal clustering algorithm is selected using indexes including the silhouette score, Davies-Bouldin Index and Caliski-Harabaz Score. The results suggested that the clustering effect of using K-Means method with three categories is optimal. Then, cellular automata model is used to simulate traffic conditions before and after the hard shoulder running strategy is applied. The parameters of the model, including the probabilities of random deceleration, slow start and lane change, are calibrated using real traffic data. Four indicators including the traffic volume, the average speed, the variance of speed, and the travel time of emergency rescue vehicles during traffic accident obtained using the cellular automata model are used to evaluate various hard shoulder running strategies. By using factor analysis and TOPSIS (Technique for Order Preference by Similarity to Ideal Solution) methods, the optimal traffic condition and speed limit of opening hard shoulder could be determined. This method could be applied to highway segments of various number of lanes and different speed limits to optimize the hard shoulder running strategy for highway management.

Published

2021

12. Identify Optimal Traffic Condition and Speed Limit for Hard Shoulder Running Strategy.

Author

Yang, Fan, Wang, Fan, Ding, Fan, Tan, Huachun, and Ran, Bin

Abstract

Highway system is experiencing increasing traffic congestion with fast-growing number of vehicles in metropolitan areas. Implementing traffic management strategies such as utilizing the hard shoulder as an extra lane could increase highway capacity without extra construction work. This paper presents a method of determining an optimal traffic condition and speed limit of opening hard shoulder. Firstly, the traffic states are clustered using K-Means, mean shift, agglomerative and spectral clustering methods, and the optimal clustering algorithm is selected using indexes including the silhouette score, Davies-Bouldin Index and Caliski-Harabaz Score. The results suggested that the clustering effect of using K-Means method with three categories is optimal. Then, cellular automata model is used to simulate traffic conditions before and after the hard shoulder running strategy is applied. The parameters of the model, including the probabilities of random deceleration, slow start and lane change, are calibrated using real traffic data. Four indicators including the traffic volume, the average speed, the variance of speed, and the travel time of emergency rescue vehicles during traffic accident obtained using the cellular automata model are used to evaluate various hard shoulder running strategies. By using factor analysis and TOPSIS (Technique for Order Preference by Similarity to Ideal Solution) methods, the optimal traffic condition and speed limit of opening hard shoulder could be determined. This method could be applied to highway segments of various number of lanes and different speed limits to optimize the hard shoulder running strategy for highway management. [ABSTRACT FROM AUTHOR]

Published

2021

13. DRIVING STRESS OF DRIVERS ON NARROWED LANE AND HARD SHOULDER OF MOTORWAYS

Author

Xing, Jian, Hirai, Shoichi, Xing, Jian, and Hirai, Shoichi

Abstract

In order to reduce congestion on a section of motorway, a new type of hard shoulder running (HSR) scheme or a tentative 3-lane operation scheme had been in use since October 21, 2011 for the first time in Japan. It is different from those that have been applied in other countries in that it operates all day long, while the latter operates only during peak periods. As a result, traffic congestion was reduced significantly. Nevertheless, before the operation, road operator was slightly worried about the impact of narrowed widths of lanes and hard shoulder on drivers’ stress while driving. The paper evaluates the impact of narrowed lanes and hard shoulder on young and senior drivers’ stress while driving during the operation of the tentative 3-lane scheme by comparing it among normal 3-lane, 2-lane and tentative 3-lane sections.&nbsp

Published

2017

14. Isolating Different Factors Affecting Travel Time Reliability in an Observational Before/After Study

Author

Maurice Aron, Neila Bhouri, Cadic, Ifsttar, Génie des Réseaux de Transport Terrestres et Informatique Avancée (IFSTTAR/COSYS/GRETTIA), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-Communauté Université Paris-Est, and Communauté Université Paris-Est-Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)

Subjects

[SPI.OTHER]Engineering Sciences [physics]/Other, observational before/after studies, BANDE D'ARRET D'URGENCE (BAU), Computer science, media_common.quotation_subject, assessment, CIRCULATION, DUREE DU TRAJET, Distribution (economics), ACCOTEMENT STABILISE, 01 natural sciences, percentile, Transport engineering, Order (exchange), EVALUATION, 11. Sustainability, 0502 economics and business, CONGESTION (TRAFIC), congestion, 0101 mathematics, Function (engineering), Hard Shoulder Running, Reliability (statistics), media_common, Travel time reliability, 050210 logistics & transportation, reliability, business.industry, [SPI.OTHER] Engineering Sciences [physics]/Other, 010102 general mathematics, 05 social sciences, CONGESTION DU TRAFIC, Travel time, Traffic congestion, travel time, DISTRIBUTION, ETUDE AVANT APRES, FIABILITE, Observational study, business

Abstract

It is increasingly recognized that travel time reliability is important to travellers and goods, and hence there is an increasing demand to include reliability in the evaluation and appraisal of transport projects and programs, as a separate factor in its own right. A number of the policy options already in use as congestion mitigation policies have also positive impacts on the travel time reliability. It is therefore important to evaluate impacts of any remedial action separately both for average travel time (congestion) and for variability of that travel time (reliability). The impacts are generally assessed with an observational before/after study. As many things, independent from the system to be assessed, change between the periods before and after the installation of the system, observational before/after studies take also into account a reference site, where the effect of these changes is identified. In a previous paper Bhouri and Aron, (2013) presented the reliability impacts of a managed lane case consisting in a Dynamic Hard Shoulder Running (HSR) during rush hours on a French urban motorway. The study was conducted by comparing reliability indicators based on data collected in 2002 before the implementation of the system and in 2006 after this implementation. Jacques Chirac, former president of France, launched in 2003 an important campaign for road safety and against speeding. This modified the travel time distribution, differently according to the lane. As reliability is based on the percentiles (and not only on averages), it was necessary, in order not to confound the effect of this campaign with the HSR effect, to develop the observational before/after study method for determining that time effect by level of travel time: to do this, the before and after travel time distributions of the reference site are established, then their difference is analyzed as a function of the travel time, taking into account the percentiles. This method and the results are presented in this paper.

Published

2014

15. Observational study on the pavement performance effects of shoulder rumble strip on shoulders

Author

Sean Coffey and Seri Park

Subjects

musculoskeletal diseases, Cracking, Engineering, Shoulder, lcsh:TE1-450, Shoulders, Specific time, 0211 other engineering and technologies, Rumble, 02 engineering and technology, Hard shoulder running, 021105 building & construction, 0502 economics and business, Forensic engineering, Rumble strip, lcsh:Highway engineering. Roads and pavements, Civil and Structural Engineering, 050210 logistics & transportation, business.industry, 05 social sciences, Pavement performance, Structural engineering, Mechanics of Materials, Rumble strips, business, human activities

Abstract

Rumble strip implementation has shown a constant increase with its safety benefits. Rumble strips are milled into the roadway shoulder to produce noise and vibrations when driven on. With the milling process, the pavement performance is expected to be negatively impacted by the decreased depth, though not mathematically quantified. Using methods defined by the Long-Term Pavement Performance Program, the severity of the shoulder site’s distresses, with and without shoulder rumble strips, will be quantified. The quantification would permit the design to compensate for the impact. This design compensation allows the implementation of hard shoulder running, the use of shoulder as a travel lane during congestion, and retains the shoulder rumble strip safety instead of removing, as suggested by some proposed projects. While hard shoulder running would not impact specific time periods, the safety benefit of rumble strips could be needed at any time. This study aims to quantify the rumble strip impact to enable the full shoulder strength for hard shoulder running while retaining the safety benefits of rumble strips. Keywords: Rumble strips, Shoulder, Cracking, Pavement performance, Hard shoulder running

16. Evaluation of the impact of the I-66 active traffic management system : final report.

Author

Virginia. Dept. of Transportation, United States. Federal Highway Administration, Chun, PiJin, Fontaine, Michael D., Virginia Transportation Research Council (VTRC), Virginia. Dept. of Transportation, United States. Federal Highway Administration, Chun, PiJin, Fontaine, Michael D., and Virginia Transportation Research Council (VTRC)

Abstract

106469, Construction of a Virginia Department of Transportation project to install an Active Traffic Management (ATM) system on Interstate-66 (I-66) from U.S. 29 in Centreville to the Capital Beltway (I-495) was completed in September 2015. The project was constructed to improve safety and operations on I-66 through better management of existing roadway capacity. The main components of the ATM system were advisory variable speed limits (AVSL), queue warning systems (QWS), lane use control signs (LUCS), and hard shoulder running (HSR). Since ATM is still a relatively new approach in the United States, there was a need to analyze the effects of the I-66 ATM. Thus, a before-and-after study was conducted to quantify its effectiveness. The study used “after” data from October 2015-February 2016 (21 weeks) for the operations analysis and data from October 2015-December 2015 (13 weeks) for the safety analysis. Operations and safety evaluations were performed using limited data, so the results should be considered preliminary. The operational measures of effectiveness (MOEs) included ATM utilization rate, average travel time, travel time reliability, and total travel time delay. The safety MOEs included crash rates by type and severity and incident frequency. These MOEs were analyzed using INRIX travel time data, limited traffic volume point sensor data, police crash reports, and iPeMS traffic incident data. Segment-level analysis was performed to determine the segments that benefitted the most from ATM implementation. From this segment-level analysis, it was determined that HSR was the ATM component that led to most of the improvements on I-66. The results of the study indicate that the ATM produced positive operational and safety benefits across multiple MOEs. The ATM generally had limited operational and safety impacts during the weekday peak periods and some impacts during the midday and off-peak weekday periods. Average weekday travel times during the midday period in the off

17. Stochastic Modeling of Lane Distribution and Dynamic Control of Managed Lanes for Highways

Author

Samoili, Sofia, Dumont, André-Gilles, and Geroliminis, Nikolaos

Subjects

Dynamic lane-scale multivariate prediction model, Lane Flow Distribution Ratio (LFDR), Users behaviour adaptation ordered probit model, Stochastic lane distribution, Lane Density Distribution Ratio (LDDR), Neural-gas ANN clustering, Multi-level dynamic algorithm, Proactive control activation, Managed lanes optimisation, Hard Shoulder Running

Abstract

Recurrent congestion during increasingly extended daily peak periods is an escalating phenomenon with multidimensional impact.Congestion mitigation in highways is polarized between invasive infrastructure interventions and Intelligent Transportation Systems (ITS) that promote ameliorated performance with sustainable economic and spatiotemporal requirements.Nevertheless, traffic intra-class variability, adaptability of drivers’behavior to ITS and inter-lane behavior variation challenge the strategies’performance and advocate congestion that could be anticipated by timely operation of designated control policies.In this scope, a novel multi-level algorithm is introduced that provides unbiased definition of peak periods and prevailing traffic regimes, through stochastic clustering; forecasts lane traffic distribution in congested and uncongested traffic regimes through lane-scale parameterisation; optimises managed lanes (ML) systems control through multi-objective functions with traffic and economic interdependencies, so as to balance LOS and operational costs.In the first level, separate stochastic clustering procedures capture spatial patterns of lane stream dynamics and temporal patterns of time span during which max capacity is attained, which unbiasedly define prevailing traffic regimes and peak periods.Data mining reveals underlying spatial association between lane traffic distribution and traffic regimes emergence that is assessed in the subsequent level, through spatiotemporal parameterization per lane.Multivariate modeling is integrated to anticipate the sequence between separate regimes, as ensued by clustering, namely to capture patterns of lanes vehicle allocation during free flow and congested regimes, and forecast impending traffic behavior that could proactively trigger the efficient implementation of control policies.Static models are developed, to ensure simple feasible implementation to reactive control management systems, and dynamic models for integration into real-time proactive systems A novel introduced parameter, the lane density distribution ratio (LDDR), and the density of the destination-lane for congested conditions or of the origin-lane for uncongested, are addressed as promising determinant response variables Both are proven site-independent and occur intermittently during congestion and free flow conditions At the lower level, multi-objective optimisation of a ML’s system operation is conducted, on account of the explanatory variables of the developed forecasting models and the operational costs of such systems, so as to ensure timely operation of a policy and so congestion alleviation A reactive ML system is subject to the proposed optimisation scheme, where observed underutilization of the ML, undermines the system’s performance The integrated approach is assessed based on the efficiency of the designated control policy in preventing congested conditions, and it concludes with the set of Pareto optimal operation thresholds appointment, through maximisation of throughput per lane and minimisation of operational costs The procedure is considered innovative, as relevant frameworks are not acknowledged in literature for ML systems, and decisions for their timely operation are solely empirically driven The proposed algorithm is integrated at a reactive hard shoulder running (HSR) system, and is evaluated through a developed API and simulation.Finally,discrete choice ordered probit models of users’ adaptation a