Back Article

Bennett R, Marsters R, Szymkowski T, Balke KN. 2018. Connected vehicle pilot deployment independent evaluation: Mobility, environmental, and public agency efficiency (MEP) refined evaluation plan-wyoming.

Lampropoulos G, Siakas K, Anastasiadis T. 2018. Internet of Things (IoT) in industry: Contemporary application domains, innovative technologies and intelligent manufacturing. International Journal of Advances in Scientific Research and Engineering (IJASRE) 4(10):109−18

Bezzina D, Sayer J. 2015. Safety pilot model deployment: Test conductor team report. Report. No. DOT HS 812 171. Washington, DC: National Highway Traffic Safety Administration.

Wang C, Xie Y, Huang H, Liu P. 2021. A review of surrogate safety measures and their applications in connected and automated vehicles safety modeling. Accident Analysis & Prevention 157:106157

Wang J, Wu J, Zheng X, Ni D, Li K. 2016. Driving safety field theory modeling and its application in pre-collision warning system. Transportation Research Part C: Emerging Technologies 72:306−24

Mullakkal-Babu FA, Wang M, He X, van Arem B, Happee R. 2020. Probabilistic field approach for motorway driving risk assessment. Transportation Research Part C: Emerging Technologies 118:102716

Ismail Fawaz H, Forestier G, Weber J, Idoumghar L, Muller PA. 2019. Deep learning for time series classification: a review. Data Mining and Knowledge Discovery 33:917−63

Wang J, Zheng Y, Li X, Yu C, Kodaka K, et al. 2015. Driving risk assessment using near-crash database through data mining of tree-based model. Accident Analysis & Prevention 84:54−64

Hu H, Wang Q, Cheng M, Gao Z. 2021. Cost-sensitive semi-supervised deep learning to assess driving risk by application of naturalistic vehicle trajectories. Expert Systems with Applications 178:115041

Zhu X, Yuan Y, Hu X, Chiu YC, Ma YL. 2017. A Bayesian Network model for contextual versus non-contextual driving behavior assessment. Transportation Research Part C: Emerging Technologies 81:172−87

Petraki V, Ziakopoulos A, Yannis G. 2020. Combined impact of road and traffic characteristic on driver behavior using smartphone sensor data. Accident Analysis & Prevention 144:105657

Jiang K, Yang D, Xie S, Xiao Z, Victorino AC, et al. 2019. Real-time estimation and prediction of tire forces using digital map for driving risk assessment. Transportation Research Part C: Emerging Technologies 107:463−89

Mao H, Guo F, Deng X, Doerzaph ZR. 2021. Decision-adjusted driver risk predictive models using kinematics information. Accident Analysis & Prevention 156:106088

Ali Y, Zheng Z, Haque MM. 2021. Modelling lane-changing execution behaviour in a connected environment: A grouped random parameters with heterogeneity-in-means approach. Communications in Transportation Research 1:100009

Lee E-Y, Cho H-J, Ryu K-Y. 2016. A probabilistic approach for collision avoidance of uncertain moving objects within black zones. Ad Hoc Networks 52:50−62

Lim KL, Whitehead J, Jia D, Zheng Z. 2021. State of data platforms for connected vehicles and infrastructures. Communications in Transportation Research 1:100013

Abdel-Aty M, Uddin N, Pande A, Abdalla MF, Hsia L. 2004. Predicting freeway crashes from loop detector data by matched case-control logistic regression. Transportation Research Record: Journal of the Transportation Research Board 1897:88−95

Yu R, Quddus M, Wang X, Yang K. 2018. Impact of data aggregation approaches on the relationships between operating speed and traffic safety. Accident Analysis & Prevention 120:304−10

Yu R, Zheng Y, Abdel-Aty M, Gao Z. 2019. Exploring crash mechanisms with microscopic traffic flow variables: A hybrid approach with latent class logit and path analysis models. Accident Analysis & Prevention 125:70−78

Sharma A, Ali Y, Saifuzzaman M, Zheng Z, Haque MM. 2017. Human factors in modelling mixed traffic of traditional, connected, and automated vehicles. AHFE 2017: Advances in Human Factors in Simulation and Modeling, ed. Cassenti D. Switzerland: Springer, Cham. pp. 262−73. https://doi.org/10.1007/978-3-319-60591-3_24

Sharma A, Zheng Z, Kim J, Bhaskar A, Haque MM. 2021. Assessing traffic disturbance, efficiency, and safety of the mixed traffic flow of connected vehicles and traditional vehicles by considering human factors. Transportation Research Part C: Emerging Technologies 124:102934

Liu H, Wei H, Zuo T, Li Z, Yang YJ. 2017. Fine-tuning ADAS algorithm parameters for optimizing traffic safety and mobility in connected vehicle environment. Transportation Research Part C: Emerging Technologies 76:132−49

Jo Y, Jang J, Park S, Oh C. 2021. Connected vehicle-based road safety information system (CROSS): Framework and evaluation. Accident Analysis & Prevention 151:105972

Xiao G, Lee J, Jiang Q, Huang H, Abdel-Aty M, Wang L. 2021. Safety improvements by intelligent connected vehicle technologies: A meta-analysis considering market penetration rates. Accident Analysis & Prevention 159:106234

Jia D, Ngoduy D. 2016. Platoon based cooperative driving model with consideration of realistic inter-vehicle communication. Transportation Research part C: Emerging Technologies 68:245−64

Xin Q, Fu R, Ukkusuri SV, Yu S, Jiang R. 2021. Modeling and impact analysis of connected vehicle merging accounting for mainline random length tight-platoon. Physica A: Statistical Mechanics and its Applications 563:125452

Rahman MS, Abdel-Aty M. 2018. Longitudinal safety evaluation of connected vehicles' platooning on expressways. Accident Analysis & Prevention 117:381−91

Abdel-Aty M, Wu Y, Saad M, Rahman MS. 2020. Safety and operational impact of connected vehicles' lane configuration on freeway facilities with managed lanes. Accident Analysis & Prevention 144:105616

Essa M, Sayed T. 2020. Self-learning adaptive traffic signal control for real-time safety optimization. Accident Analysis & Prevention 146:105713

Hu J, Huang MC, Yu X. 2020. Efficient mapping of crash risk at intersections with connected vehicle data and deep learning models. Accident Analysis & Prevention 144:105665

Li P, Abdel-Aty M, Cai Q, Yuan C. 2020. The application of novel connected vehicles emulated data on real-time crash potential prediction for arterials. Accident Analysis & Prevention 144:105658

Ma Y, Zhu J. 2021. Left-turn conflict identification at signal intersections based on vehicle trajectory reconstruction under real-time communication conditions. Accident Analysis & Prevention 150:105933

Ali EM, Ahmed MM, Yang G. 2021. Normal and risky driving patterns identification in clear and rainy weather on freeway segments using vehicle kinematics trajectories and time series cluster analysis. IATSS Research 45:137−52

Narmadha S, Vijayakumar V. 2023. Spatio-Temporal vehicle traffic flow prediction using multivariate CNN and LSTM model. Materials Today: Proceedings 81:826−33

Wang K, Ma C, Qiao Y, Lu X, Hao W, et al. 2021. A hybrid deep learning model with 1DCNN-LSTM-Attention networks for short-term traffic flow prediction. Physica A: Statistical Mechanics and its Applications 583:126293

Boukerche A, Wang J. 2020. A performance modeling and analysis of a novel vehicular traffic flow prediction system using a hybrid machine learning-based model. Ad Hoc Networks 106:102224

Guo Y, Zhang H, Wang C, Sun Q, Li W. 2021. Driver lane change intention recognition in the connected environment. Physica A: Statistical Mechanics and its Applications 575:126057

Krajewski R, Bock J, Kloeker L, Eckstein L. 2018. The highD dataset: A drone dataset of naturalistic vehicle trajectories on german highways for validation of highly automated driving systems. Proc. 2018 21st International Conference on Intelligent Transportation Systems (ITSC), Maui, HI, USA, 4-7 November 2018. USA: IEEE. pp. 2118-25. https://doi.org/10.1109/ITSC.2018.8569552

Meng Q, Qu X. 2012. Estimation of rear-end vehicle crash frequencies in urban road tunnels. Accident Analysis & Prevention 48:254−63

Yu R, Han L, Zhang H. 2021. Trajectory data based freeway high-risk events prediction and its influencing factors analyses. Accident Analysis & Prevention 154:106085

Bergasa LM, Almería D, Almazán J, Yebes JJ, Arroyo R. 2014. Drivesafe: An app for alerting inattentive drivers and scoring driving behaviors. 2014 IEEE Intelligent Vehicles Symposium Proceedings, Dearborn, MI, USA, 8-11 June 2014. USA: IEEE. pp. 240-45. https://doi.org/10.1109/IVS.2014.6856461

Kingma DP, Ba J. 2014. Adam: A method for stochastic optimization. arXiv Preprint

Hochreiter S, Schmidhuber J. 1997. Long short-term memory. Neural Computation 9:1735−80

Yuan C, Li Y, Huang H, Wang S, Sun Z, et al. 2022. Application of explainable machine learning for real-time safety analysis toward a connected vehicle environment. Accident Analysis & Prevention 171:106681