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Safety and Economic Effects of Median Guardrails in No-Passing Zone Sections of a Two-Lane Two-Way Rural Highway

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Abstract

In this study, the effect of median guardrails in no-passing zone sections of a two-lane two-way highway was investigated. In this regard, the Firuzkuh-Qaemshahr highway in Mazandaran province of Iran which has 5.5 km median guardrails was selected. All types of crashes studied in two periods, before-and after-the implementation of median guardrails, were considered, and using crash predictive models for the two-way two-lane highway, the effect of implementation was explored. To evaluate the economic effects of this treatment, various crash cost factors were converted to monetary equivalents to compare the cost of crashes before-and after-applying the treatment. This study revealed that using median guardrails caused the monthly average of fatal and injury crashes to decrease by 84% and 29%, respectively. Moreover, the proportion of fatal and injury crashes to total crashes had a 55% drop, indicating that the severity of crashes was reduced, leading to fewer deaths or injuries. Also, this treatment had an impressive reduction in the average monthly cost of crashes, so that the largest reduction among all cost factors belonged to the cost of fatalities in traffic crashes with an 85% reduction, followed by the cost of lost time due to the traffic jams caused by fatal crashes with an 84% decrease. Furthermore, the economic analysis of the implementation of median guardrails revealed that this treatment reduced the average monthly traffic crash cost by 65%. Therefore, the median guardrails in no-passing zone sections of the two-way two-lane Firuzkuh-Qaemshahr highway had a remarkable economic benefit.

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References

  1. Sheykhfard A, Haghighi F, Abbasalipoor R (2022) An analysis of influential factors associated with rural crashes in a developing country: a case study of Iran. Arch Transp 63:1

    Google Scholar 

  2. Bamdad Mehrabani B et al (2021) Predicting operating speed: comparison of linear regression and structural equation models. Proc Inst Civ Eng Transp 2021:1–13

    Google Scholar 

  3. Saljoqi M, Behnood HR, Mirbaha B (2021) Developing the crash modification model for urban street lighting. Innov Infrastruct Solut 6(2):59

    Article  Google Scholar 

  4. Azarbakhsh H et al (2023) Mortality rate and years of life lost due to road traffic accidents in Fars Province, 2004–2019. Iran J Public Health 52(9):1995–2003

    Google Scholar 

  5. Hosseinian SM et al (2021) Statistical analysis for study of the effect of dark clothing color of female pedestrians on the severity of accident using machine learning methods. Math Probl Eng 2021:1–21

    Google Scholar 

  6. Torkashvand MB et al (2022) An extended dynamic probabilistic risk approach based on a surrogate safety measure for rear-end collisions on two-lane roads. Physica A 603:127845

    Article  Google Scholar 

  7. Elvik R (1995) The safety value of guardrails and crash cushions: a meta-analysis of evidence from evaluation studies. Accid Anal Prev 27(4):523–549

    Article  Google Scholar 

  8. Hu W, Donnell ET (2010) Median barrier crash severity: some new insights. Accid Anal Prev 42:1697–1704

    Article  Google Scholar 

  9. Yanmaz-Tuzel O, Ozbay K (2010) A comparative full Bayesian before-and-after analysis and application to urban road safety countermeasures in New Jersey. Accid Anal Prev 42:2099–2107

    Article  Google Scholar 

  10. Zou Y et al (2014) Effectiveness of cable barriers, guardrails, and concrete barrier walls in reducing the risk of injury. Accid Anal Prev 72:55–65

    Article  Google Scholar 

  11. Martin J-L, Mintsa-Eya C, Goubel C (2013) Long-term analysis of the impact of longitudinal barriers on motorway safety. Accid Anal Prev 59:443–451

    Article  Google Scholar 

  12. Russo BJ, Savolainen PT (2018) A comparison of freeway median crash frequency, severity, and barrier strike outcomes by median barrier type. Accid Anal Prev 117:216–224

    Article  Google Scholar 

  13. Rezapour M, Wulff SS, Ksaibati K (2019) Examination of the severity of two-lane highway traffic barrier crashes using the mixed logit model. J Safety Res 70:223–232

    Article  Google Scholar 

  14. Mehrara Molan A, Moomen M, Ksaibati K (2019) Investigating the effect of geometric dimensions of median traffic barriers on crashes: crash analysis of interstate roads in Wyoming using actual crash datasets. J Saf Res 71:163–171

    Article  Google Scholar 

  15. Hosseini J et al (2021) Evaluation of the effect of roadside barrier type on lateral offsets in urban highways. Innov Infrastruct Solut 7(1):20

    Article  Google Scholar 

  16. Moomen M, Molan AM, Ksaibati K (2023) A random parameters multinomial logit model analysis of median barrier crash injury severity on Wyoming interstates. Sustainability 15(14):10856

    Article  Google Scholar 

  17. Li Z et al (2010) Project-level life-cycle benefit–cost analysis approach for evaluating highway segment safety hardware improvements. Transp Res Rec 2160(1):1–11

    Article  Google Scholar 

  18. Claros BR et al (2015) Safety evaluation of diverging diamond interchanges in Missouri. Transp Res Rec 2486(1):1–10

    Article  Google Scholar 

  19. Russo BJ, Savolainen PT, Gates TJ (2016) Development of crash modification factors for installation of high-tension cable median barriers. Transp Res Rec 2588(1):116–125

    Article  Google Scholar 

  20. Chimba D et al (2017) Digesting the safety effectiveness of cable barrier systems by numbers. Transp Res Part A Policy Pract 95:227–237

    Article  Google Scholar 

  21. Bryant A, Chimba D, Ruhazwe E (2018) Crash modification factors for median cable barriers in Tennessee. In: Proceedings of 97th annual meeting of the transportation research board, Washington, DC

  22. Alnawmasi N, Mannering F (2022) The impact of higher speed limits on the frequency and severity of freeway crashes: accounting for temporal shifts and unobserved heterogeneity. Anal Methods Accident Res 34:100205

    Article  Google Scholar 

  23. Miaou S-P, Bligh RP, Lord D (2005) Developing guidelines for median barrier installation: benefit–cost analysis with texas data. Transp Res Rec 1904(1):2–19

    Article  Google Scholar 

  24. Chitturi MV et al (2011) Injury outcomes and costs for cross-median and median barrier crashes. J Saf Res 42(2):87–92

    Article  Google Scholar 

  25. Tabatebaei SA, Rahman A, Khourani H (2012) Assessment of road safety barriers and their effects on the fatal injuries reduction in Iran. Adv Mater Res 472:1469–1472

    Article  Google Scholar 

  26. Zhou H et al (2013) Safety effects of median treatments using longitudinal channelizers: empirical Bayesian before-and-after study. J Transp Eng 139(12):1149–1155

    Article  Google Scholar 

  27. Zou Y, Tarko AP (2018) Barrier-relevant crash modification factors and average costs of crashes on arterial roads in Indiana. Accid Anal Prev 111:71–85

    Article  Google Scholar 

  28. Soleymani M (2023) Road safety management and comparison of low cost and high cost plans and selection of the most appropriate plan. Math Stat Eng Appl 72(1):1821–1831

    Google Scholar 

  29. Khattak ZH, Magalotti MJ, Fontaine MD (2018) Estimating safety effects of adaptive signal control technology using the empirical Bayes method. J Safety Res 64:121–128

    Article  Google Scholar 

  30. Persaud B et al (2010) Comparison of empirical Bayes and full Bayes approaches for before–after road safety evaluations. Accid Anal Prev 42(1):38–43

    Article  Google Scholar 

  31. Das S et al (2018) Safety effectiveness of roadway conversion with a two way left turn lane. J Traffic Transp Eng (Engl Ed) 5(4):309–317

    Google Scholar 

  32. Almasi SA, Behnood HR (2022) Exposure based geographic analysis mode for estimating the expected pedestrian crash frequency in urban traffic zones; case study of Tehran. Accid Anal Prev 168:106576

    Article  Google Scholar 

  33. Al-Kaisy A, Huda KT (2022) Empirical Bayes application on low-volume roads: oregon case study. J Safety Res 80:226–234

    Article  Google Scholar 

  34. Wu L, Geedipally SR, Pike AM (2018) Safety evaluation of alternative audible lane departure warning treatments in reducing traffic crashes: an empirical Bayes observational before–after study. Transp Res Rec 2672(21):30–40

    Article  Google Scholar 

  35. Wood J, Donnell ET (2020) Empirical Bayes before-after evaluation of horizontal curve warning pavement markings on two-lane rural highways in Pennsylvania. Accid Anal Prev 146:105734

    Article  Google Scholar 

  36. Song Y, Noyce D (2018) Assessing effects of transit signal priority on traffic safety: empirical Bayes before–after study using King County, Washington, Data. Transp Res Rec 2672(8):10–18

    Article  Google Scholar 

  37. Chen J et al (2022) A review of vision-based traffic semantic understanding in ITSs. IEEE Trans Intell Transp Syst 2022:1

    Google Scholar 

  38. Han Y et al (2022) Research on road environmental sense method of intelligent vehicle based on tracking check. IEEE Trans Intell Transp Syst 24(1):1261–1275

    Article  MathSciNet  Google Scholar 

  39. Chen J et al (2023) A flow feedback traffic prediction based on visual quantified features. IEEE Trans Intell Transp Syst 2023:1

    Google Scholar 

  40. Chen J et al (2022) Disparity-based multiscale fusion network for transportation detection. IEEE Trans Intell Transp Syst 23(10):18855–18863

    Article  Google Scholar 

  41. Baesmat KH, Masoudipour I, Samet H (2021) Improving the performance of short-term load forecast using a hybrid artificial neural network and artificial bee colony algorithm amélioration des performances de la prévision de la charge à court terme à l’aide d’un réseau neuronal artificiel hybride et d’un algorithme de colonies d’abeilles artificielles. IEEE Can J Electr Comput Eng 44(3):275–282

    Article  Google Scholar 

  42. Shen G et al (2018) Fault analysis of machine tools based on grey relational analysis and main factor analysis. J Phys Conf Ser 2018:1

    Google Scholar 

  43. Sun L et al (2023) Meta-transfer metric learning for time series classification in 6G-supported intelligent transportation systems. IEEE Trans Intell Transp Syst 2023:1

    Google Scholar 

  44. Hassanpouri Baesmat K, Shiri A (2019) A new combined method for future energy forecasting in electrical networks. Int Trans Electr Energy Syst 29(3):e2749

    Article  Google Scholar 

  45. Baesmat KH, Latifi S (2023) A new hybrid method for electrical load forecasting based on deviation correction and MRMRMS. In: International conference on systems engineering. Springer, Berlin

  46. Zhang X et al (2022) A hybrid-convolution spatial–temporal recurrent network for traffic flow prediction. Comput J 2022:bxac171

    Google Scholar 

  47. Han C, Fu X (2023) Challenge and opportunity: deep learning-based stock price prediction by using Bi-directional LSTM model. Front Bus Econ Manag 8(2):51–54

    Article  Google Scholar 

  48. Zhang X et al (2023) Hierarchical velocity optimization for connected automated vehicles with cellular vehicle-to-everything communication at continuous signalized intersections. IEEE Trans Intell Transp Syst 2023:1

    Google Scholar 

  49. Li Z, Han C, Coit DW (2023) System reliability models with dependent degradation processes. In: Advances in reliability and maintainability methods and engineering applications: essays in Honor of Professor Hong-Zhong Huang on his 60th birthday. Springer, London, pp 475–497

  50. Shen G et al (2017) Determination of the average maintenance time of CNC machine tools based on type II failure correlation. Eksploatacja Niezawodność 19(4):1

    Google Scholar 

  51. Xu J et al (2022) Human-factors-in-driving-loop: driver identification and verification via a deep learning approach using psychological behavioral data. IEEE Trans Intell Transp Syst 24(3):3383–3394

    Article  MathSciNet  Google Scholar 

  52. Zheng L, Sayed T, Essa M (2019) Validating the bivariate extreme value modeling approach for road safety estimation with different traffic conflict indicators. Accid Anal Prev 123:314–323

    Article  Google Scholar 

  53. Haghir S et al (2021) BIM based decision-support tool for automating design to fabrication process of freeform lattice space structure. Int J Space Struct 36(3):164–179

    Article  Google Scholar 

  54. Rastegar RM et al (2022) From evidence to assessment: developing a scenario-based computational design algorithm to support informed decision-making in primary care clinic design workflow. Int J Archit Comput 20(3):567–586

    Google Scholar 

  55. Ma X et al (2023) Real-time assessment of asphalt pavement moduli and traffic loads using monitoring data from built-in sensors: optimal sensor placement and identification algorithm. Mech Syst Signal Process 187:109930

    Article  Google Scholar 

  56. Khordehbinan M, Kaymanesh MR (2020) Chemical analysis and middle-low temperature functional of waste polybutadiene rubber polymer modified bitumen. Pet Sci Technol 38(1):8–17

    Article  Google Scholar 

  57. Rezaei S et al (2020) Fatigue analysis of bitumen modified with composite of nano-SiO2 and styrene butadiene styrene polymer. Frattura ed Integrità Strutturale 14(53):202–209

    Article  Google Scholar 

  58. Shayesteh A et al (2017) Finite element method in statistical analysis of flexible pavement. J Mar Sci Technol 25(2):15

    Google Scholar 

  59. Xu J, Guo K, Sun PZ (2022) Driving performance under violations of traffic rules: novice vs. experienced drivers. IEEE Trans Intell Veh 7(4):908–917

    Article  Google Scholar 

  60. Xu J et al (2021) The improvement of road driving safety guided by visual inattentional blindness. IEEE Trans Intell Transp Syst 23(6):4972–4981

    Article  Google Scholar 

  61. Xu J et al (2022) The alleviation of perceptual blindness during driving in urban areas guided by saccades recommendation. IEEE Trans Intell Transp Syst 23(9):16386–16396

    Article  Google Scholar 

  62. Yu S et al (2023) Understanding traffic bottlenecks of long freeway tunnels based on a novel location-dependent lighting-related car-following model. Tunn Undergr Space Technol 136:105098

    Article  Google Scholar 

  63. Ourang S (2022) Evaluation of inter-organizational coordination of housing services in rural Alaska through social network analysis. Doctoral dissertation, Iowa State University

  64. Xu J et al (2023) Left gaze bias between LHT and RHT: a recommendation strategy to mitigate human errors in left-and right-hand driving. IEEE Trans Intell Veh 2023:1

    Google Scholar 

  65. Fang Y et al (2022) On-ramp merging strategies of connected and automated vehicles considering communication delay. IEEE Trans Intell Transp Syst 23(9):15298–15312

    Article  Google Scholar 

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This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

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Authors and Affiliations

  1. Department of Civil Engineering, Islamic Azad University, Tehran, Iran

    Seyed Rasoul Mirbagheri

  2. Department of Civil-Transportation Planning, Imam Khomeini International University (IKIU), Qazvin, Iran

    Seyed Mohsen Hosseinian, Ali Abdi Kordani & Hamid Reza Behnood

Authors
  1. Seyed Rasoul Mirbagheri
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  2. Seyed Mohsen Hosseinian
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  3. Ali Abdi Kordani
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  4. Hamid Reza Behnood
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Correspondence to Ali Abdi Kordani.

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Mirbagheri, S.R., Hosseinian, S.M., Abdi Kordani, A. et al. Safety and Economic Effects of Median Guardrails in No-Passing Zone Sections of a Two-Lane Two-Way Rural Highway. Int J Civ Eng (2024). https://doi.org/10.1007/s40999-023-00930-5

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  • DOI: https://doi.org/10.1007/s40999-023-00930-5

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