https://orcid.org/0000-0002-5339-9807
References
- World Health Organization. 2018. Who global status report on road safety 2018.
- NHTSA. 2019. Trafc safety facts, 2017 data: Pedestrians.
- Gilandeh SS, Hosseinlou MH, Anarkooli AJ. Examining bus driver behavior as a function of roadway features under daytime and nighttime lighting conditions: driving simulator study. Safe Sci. 2018;110:142–151.
- Hosseinpour M, Yahaya AS, Sadullah AF. Exploring the effects of roadway characteristics on the frequency and severity of head-on crashes: Case studies from malaysian federal roads. Accid Anal Prev. 2014;62:209–222.
- Karami A, Hadji Hosseinlou M, Abbasi MH, et al. Priority order for improvement of intersections using pedestrian crash prediction model. Int J Transport Eng. 2020a;7(3):297–313.
- Xin C, Guo R, Wang Z, et al. The effects of neighborhood characteristics and the built environment on pedestrian injury severity: a random parameters generalized ordered probability model with heterogeneity in means and variances. Anal Method Accid Res. 2017;16:117–132.
- Aye CM, Pholdee N, Yildiz AR, et al. Multi-surrogate-assisted metaheuristics for crashworthiness optimisation. IJVD. 2019;80(2/3/4):223–240.
- Demirci E, Yıldız AR. An experimental and numerical investigation of the effects of geometry and spot welds on the crashworthiness of vehicle thin-walled structures. Mater Test. 2018a;60(6):553–561.
- Demirci E, Yıldız AR. An investigation of the crash performance of magnesium, aluminum and advanced high strength steels and different cross-sections for vehicle thin-walled energy absorbers. Mater Test. 2018b;60(7-8):661–668.
- Zou T, Liu Z, Wang D, et al. Assessing the effect of pedestrian deceleration on pedestrian autonomous emergency braking systems. Int J Crashworthiness. 2021;1–6. https://doi.org/10.1080/13588265.2021.1927611
- Karami H, Karami A, Mehdizadeh M. The role of psychological factors on the choice of different driving controls: on manual, partial, and highly automated controls. Transport Res F Traffic Psychol Behav. 2022;86:316–332.
- Shoabjareh AH, Mamdoohi AR, Nordfjaern T. Analysis of pedestrians’ behaviour: a segmentation approach based on latent variables. Accid Anal Prev. 2021;157:106160.
- Zou T, Zha A, Liu Q, et al. Pedestrian gaits observed from actual pedestrian-vehicle collisions. Int J Crashworthiness. 2022;27(1):1–23.
- Chang F, Haque MM, Yasmin S, et al. Crash injury severity analysis of e-bike riders: a random parameters generalized ordered probit model with heterogeneity in means. Safe Sci. 2022;146:105545.
- Kim J-K, Ulfarsson GF, Shankar VN, et al. A note on modeling pedestrian-injury severity in motor-vehicle crashes with the mixed logit model. Accid Anal Prev. 2010;42(6):1751–1758.
- Griswold J, Fishbain B, Washington S, et al. Visual assessment of pedestrian crashes. Accid Anal Prev. 2011;43(1):301–306.
- Olszewski P, Szagała P, Wolański M, et al. Pedestrian fatality risk in accidents at unsignalized zebra crosswalks in poland. Accid Anal Prev. 2015;84:83–91.
- Clifton KJ, Burnier CV, Akar G. Severity of injury resulting from pedestrian–vehicle crashes: what can we learn from examining the built environment? Transport Res D Transp Environ. 2009;14(6):425–436.
- Behnood A, Mannering FL. An empirical assessment of the effects of economic recessions on pedestrian-injury crashes using mixed and latent-class models. Anal Method Accid Res. 2016;12:1–17.
- Islam S, Jones SL. Pedestrian at-fault crashes on rural and urban roadways in Alabama. Accid Anal Prev. 2014;72:267–276.
- Kim J-K, Ulfarsson GF, Shankar VN, et al. Age and pedestrian injury severity in motor-vehicle crashes: a heteroskedastic logit analysis. Accid Anal Prev. 2008;40(5):1695–1702.
- Liu J, Hainen A, Li X, et al. Pedestrian injury severity in motor vehicle crashes: an integrated spatio-temporal modeling approach. Accid Anal Prev. 2019;132:105272.,
- Song L, Fan WD, Li Y, et al. Exploring pedestrian injury severities at pedestrian-vehicle crash hotspots with an annual upward trend: a spatiotemporal analysis with latent class random parameter approach. J Safety Res. 2021;76:184–196.
- Zhai X, Huang H, Sze N, et al. Diagnostic analysis of the effects of weather condition on pedestrian crash severity. Accid Anal Prev. 2019;122:318–324.
- Kim M, Kho S-Y, Kim D-K. Hierarchical ordered model for injury severity of pedestrian crashes in South Korea. J Safety Res. 2017;61:33–40.
- Huang H, Zhou H, Wang J, et al. A multivariate spatial model of crash frequency by transportation modes for urban intersections. Anal Method Accid Res. 2017;14:10–21.
- Islam S, Burton B. A comparative injury severity analysis of rural intersection crashes under different lighting conditions in Alabama. J Transport Safe Secur. 2020;12(9):1106–1127.
- Karami A, Hajihoseinlou M, Abbasi M. 2020b. Application of integrated fuzzy-ahp approach in prioritization of urban intersections improvement for increasing the pedestrian safety.
- Wang W, Guo H, Gao Z, et al. Individual differences of pedestrian behaviour in midblock crosswalk and intersection. Int J Crashworthiness. 2011;16(1):1–9.
- World Health Organization. 2013. Pedestrian safety: a road safety manual for decision-makers and practitioners.
- Eluru N, Bhat CR, Hensher DA. A mixed generalized ordered response model for examining pedestrian and bicyclist injury severity level in traffic crashes. Accid Anal Prev. 2008;40(3):1033–1054.
- Aziz HA, Ukkusuri SV, Hasan S. Exploring the determinants of pedestrian–vehicle crash severity in New York city. Accid Anal Prev. 2013;50:1298–1309.
- Abay KA. Examining pedestrian-injury severity using alternative disaggregate models. Res Transport Econ. 2013;43(1):123–136.
- Sze N-N, Wong S. Diagnostic analysis of the logistic model for pedestrian injury severity in traffic crashes. Accid Anal Prev. 2007;39(6):1267–1278.
- Anarkooli AJ, Hosseinlou MH. Analysis of the injury severity of crashes by considering different lighting conditions on two-lane rural roads. J Safety Res. 2016;56:57–65.
- Uddin M, Huynh N. Truck-involved crashes injury severity analysis for different lighting conditions on rural and urban roadways. Accid Anal Prev. 2017;108:44–55.
- Anarkooli AJ, Persaud B, Hosseinpour M, et al. Comparison of univariate and two-stage approaches for estimating crash frequency by severity—case study for horizontal curves on two-lane rural roads. Accid Anal Prev. 2019;129:382–389.
- Dong C, Richards SH, Huang B, et al. Identifying the factors contributing to the severity of truck-involved crashes. Int J Inj Contr Saf Promot. 2015;22(2):116–126.
- Khorashadi A, Niemeier D, Shankar V, et al. Differences in rural and urban driver-injury severities in accidents involving large-trucks: an exploratory analysis. Accid Anal Prev. 2005;37(5):910–921.
- Washington S, Karlaftis M, Mannering F. 2010. Random-parameter models (chpater 16). Statistical and econometric methods for transportation data analysis.
- Rozenberg GV. 1966. Twilight springer.
- Baba N. Increased presence of foreign investors and dividend policy of japanese firms. Pacific-Basin Finance J. 2009;17(2):163–174.
- Islam S, Jones SL, Dye D. Comprehensive analysis of single-and multi-vehicle large truck at-fault crashes on rural and urban roadways in Alabama. Accid Anal Prev. 2014;67:148–158.
- Pahukula J, Hernandez S, Unnikrishnan A. A time of day analysis of crashes involving large trucks in urban areas. Accid Anal Prev. 2015;75:155–163.
- Li Y, Fan WD. Modelling severity of pedestrian-injury in pedestrian-vehicle crashes with latent class clustering and partial proportional odds model: a case study of North Carolina. Accid Anal Prev. 2019;131:284–296.
- Tay R, Choi J, Kattan L, et al. A multinomial logit model of pedestrian–vehicle crash severity. Int J Sustain Transport. 2011;5(4):233–249.
- Pour-Rouholamin M, Zhou H. Investigating the risk factors associated with pedestrian injury severity in Illinois. J Safety Res. 2016;57:9–17.
- Chen Z, Fan WD. A multinomial logit model of pedestrian-vehicle crash severity in North Carolina. Int J Transport Sci Technol. 2019;8(1):43–52.
- Li Y, Song L, Fan WD. Day-of-the-week variations and temporal instability of factors influencing pedestrian injury severity in pedestrian-vehicle crashes: a random parameters logit approach with heterogeneity in means and variances. Anal Method Accid Res. 2021;29:100152.
- Ballesteros MF, Dischinger PC, Langenberg P. Pedestrian injuries and vehicle type in Maryland, 1995–1999. Accid Anal Prev. 2004;36(1):73–81.
- Prato CG, Kaplan S, Patrier A, et al. Considering built environment and spatial correlation in modelling pedestrian injury severity. Traffic Inj Prev. 2018;19(1):88–93.