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Mahasirikul, Narongdet, Preenithi Aksorn and Wuttipong Kusonkhum, “Driving Speed And Hazardous Location In Construction Work Zone Case Of Highway 2 Hin Latnon-Sa At,” Geomate Journal, Vol. 20, No. 80, 2021, pp. 143–151.MahasirikulNarongdetAksornPreenithiKusonkhumWuttipong“Driving Speed And Hazardous Location In Construction Work Zone Case Of Highway 2 Hin Latnon-Sa At,”20802021143151Search in Google Scholar
Jabbarpour, Mohammad Reza, et al. “Applications of computational intelligence in vehicle traffic congestion problem: a survey,” Soft Computing, Vol. 22, No. 7, 2018, pp. 2299–2320.JabbarpourMohammad Reza“Applications of computational intelligence in vehicle traffic congestion problem: a survey,”227201822992320Search in Google Scholar
Sayed, Md Abu, et al. “Identification and analysis of misclassified work-zone crashes using text mining techniques,” Accident Analysis & Prevention, Vol. 159, 2021, pp. 106211.SayedMd Abu“Identification and analysis of misclassified work-zone crashes using text mining techniques,”1592021106211Search in Google Scholar
Mashhadi, H. Ali, et al. “Review of methods for estimating construction work zone capacity,” Transportation research record, Vol. 2675, No. 9, 2021, pp. 382–397.MashhadiH. Ali“Review of methods for estimating construction work zone capacity,”267592021382397Search in Google Scholar
Raddaoui, Omar, M. Mohamed Ahmed, M. Sherif Gaweesh, “Assessment of the effectiveness of connected vehicle weather and work zone warnings in improving truck driver safety,” IATSS research, Vol. 44, No. 3, 2020, pp. 230–237.RaddaouiOmarAhmedM. MohamedGaweeshM. Sherif“Assessment of the effectiveness of connected vehicle weather and work zone warnings in improving truck driver safety,”4432020230237Search in Google Scholar
Raju, Narayana, Shriniwas Arkatkar, Gaurang Joshi, “Effect of construction work zone on traffic stream parameters using vehicular trajectory data under mixed traffic conditions,” Journal of Transportation Engineering, Part A: Systems, Vol. 146, No. 6, 2020, pp. 5020002.RajuNarayanaArkatkarShriniwasJoshiGaurang“Effect of construction work zone on traffic stream parameters using vehicular trajectory data under mixed traffic conditions,”146620205020002Search in Google Scholar
Yang, Weijun, et al. “Evaluation of urban traffic noise pollution based on noise maps,” Transportation Research Part D: Transport and Environment, Vol. 87, 2020, pp. 102516.YangWeijun“Evaluation of urban traffic noise pollution based on noise maps,”872020102516Search in Google Scholar
Sonaviya, R. Dipeshkumar and N. Bhaven Tandel, “Integrated road traffic noise mapping in urban Indian context,” Noise Mapping, Vol. 7, No. 1, 2020, pp. 99–113.SonaviyaR. DipeshkumarTandelN. Bhaven“Integrated road traffic noise mapping in urban Indian context,”71202099113Search in Google Scholar
Afrin, Tanzina and Nita Yodo, “A survey of road traffic congestion measures towards a sustainable and resilient transportation system,” Sustainability, Vol. 12, No. 11, 2020, pp. 4660.AfrinTanzinaYodoNita“A survey of road traffic congestion measures towards a sustainable and resilient transportation system,”121120204660Search in Google Scholar
Retallack, Angus Eugene and Bertram Ostendorf, “Current understanding of the effects of congestion on traffic accidents,” International journal of environmental research and public health, Vol. 16, No. 18, 2019, pp. 3400.RetallackAngus EugeneOstendorfBertram“Current understanding of the effects of congestion on traffic accidents,”161820193400Search in Google Scholar
Abdulsattar, Harith, et al. “Measuring the impacts of connected vehicles on travel time reliability in a work zone environment: an agent-based approach,” Journal of Intelligent Transportation Systems, Vol. 24, No. 5, 2020, pp. 421–436.AbdulsattarHarith“Measuring the impacts of connected vehicles on travel time reliability in a work zone environment: an agent-based approach,”2452020421436Search in Google Scholar
Kukkapalli, Venu Madhav and S. Srinivas Pulugurtha, “Modeling the effect of a freeway road construction project on link-level travel times,” Journal of Traffic and Transportation Engineering (English Edition), Vol. 8, No. 2, 2021, pp. 267–281.KukkapalliVenu MadhavPulugurthaS. Srinivas“Modeling the effect of a freeway road construction project on link-level travel times,”822021267281Search in Google Scholar
Cao, Danni, et al. “A platoon regulation algorithm to improve the traffic performance of highway work zones,” Computer-Aided Civil and Infrastructure Engineering, Vol. 36, No. 7, 2021, pp. 941–956.CaoDanni“A platoon regulation algorithm to improve the traffic performance of highway work zones,”3672021941956Search in Google Scholar
Ravani, Bahram and Chao Wang, “Speeding in highway work zone: an evaluation of methods of speed control,” Accident Analysis & Prevention, Vol. 113, 2018, pp. 202–212.RavaniBahramWangChao“Speeding in highway work zone: an evaluation of methods of speed control,”1132018202212Search in Google Scholar
Wen and Xuejin, “A work zone simulation model for travel time prediction in a connected vehicle environment,” 2018. arXiv preprint arXiv:1801.07579.WenXuejin2018arXiv preprint arXiv:1801.07579.Search in Google Scholar
Zambrano-Martinez, Jorge Luis, et al. “Modeling and characterization of traffic flows in urban environments,” Sensors, Vol. 18, No. 7, 2018, pp. 2020.Zambrano-MartinezJorge Luis“Modeling and characterization of traffic flows in urban environments,”18720182020Search in Google Scholar
Tufuor, O. A. Ernest and R. Laurence Rilett, “Analysis of component errors in the Highway Capacity Manual travel time reliability estimations for urban streets,” Transportation Research Record, Vol. 2674, No. 6, 2020, pp. 85–97.TufuorO. A. ErnestRilettR. Laurence“Analysis of component errors in the Highway Capacity Manual travel time reliability estimations for urban streets,”2674620208597Search in Google Scholar
Mao, Suyi, et al. “Safety effects of work zone advisory systems under the intelligent connected vehicle environment: a microsimulation approach,” Journal of intelligent and connected vehicles, 2021.MaoSuyi“Safety effects of work zone advisory systems under the intelligent connected vehicle environment: a microsimulation approach,”2021Search in Google Scholar
Shahin, Fadi, et al. “An Optimization Model for Highway Work Zones Considering Safety,” Mobility, and Project Cost, Sustainability, Vol. 14, No. 3, 2022, pp. 1442.ShahinFadi“An Optimization Model for Highway Work Zones Considering Safety,”14320221442Search in Google Scholar
Saha, Troyee and P. Virginia Sisiopiku, “Assessing work zone traffic control options for 3-to-1 lane closures,” Journal of transportation technologies, Vol. 10, No. 01, 2020, pp. 50.SahaTroyeeSisiopikuP. Virginia“Assessing work zone traffic control options for 3-to-1 lane closures,”1001202050Search in Google Scholar
Osman, Mohamed, Rajesh Paleti and Sabyasachee Mishra, “Analysis of passenger-car crash injury severity in different work zone configurations,” Accident Analysis & Prevention, vol. 111, 2018, pp. 161–172.OsmanMohamedPaletiRajeshMishraSabyasachee“Analysis of passenger-car crash injury severity in different work zone configurations,”1112018161172Search in Google Scholar
Weng, Jinxian, et al. “Time-varying mixed logit model for vehicle merging behavior in work zone merging areas,” Accident Analysis & Prevention, Vol. 117, 2018, pp. 328–339.WengJinxian“Time-varying mixed logit model for vehicle merging behavior in work zone merging areas,”1172018328339Search in Google Scholar
Wang, Zijin and Jaeyoung Lee, “Enhancing construction truck safety at work zones: a microscopic traffic simulation study,” IEEE access, Vol. 9, 2021, pp. 49750–49759.WangZijinLeeJaeyoung“Enhancing construction truck safety at work zones: a microscopic traffic simulation study,”920214975049759Search in Google Scholar
Steinbakk, Renata Torquato, et al. “Analysing the influence of visible roadwork activity on drivers’ speed choice at work zones using a video-based experiment,” Transportation research part F: traffic psychology and behavior, Vol. 44, 2017, pp. 53–62.SteinbakkRenata Torquato“Analysing the influence of visible roadwork activity on drivers’ speed choice at work zones using a video-based experiment,”4420175362Search in Google Scholar
Wu, Wenjing, et al. “Simulation and evaluation of speed and lane-changing advisory of CAVS at work zones in heterogeneous traffic flow,” International Journal of Modern Physics B, Vol. 34, No. 21, 2020, pp. 2050201.WuWenjing“Simulation and evaluation of speed and lane-changing advisory of CAVS at work zones in heterogeneous traffic flow,”342120202050201Search in Google Scholar
Steinbakk, Renata Torquato, et al. “Speed preferences in work zones: The combined effect of visible roadwork activity, personality traits, attitudes, risk perception and driving style,” Transportation research part F: traffic psychology and behavior, Vol. 62, 2019, pp. 390–405.SteinbakkRenata Torquato“Speed preferences in work zones: The combined effect of visible roadwork activity, personality traits, attitudes, risk perception and driving style,”622019390405Search in Google Scholar
Edara, Praveen, Carlos Sun and Yi Hou, “Evaluation of variable advisory speed limits in congested work zones,” Journal of Transportation Safety & Security, Vol. 9, No. 2, 2017, pp. 123–145.EdaraPraveenSunCarlosHouYi“Evaluation of variable advisory speed limits in congested work zones,”922017123145Search in Google Scholar
Du, Bo, et al. “Predicting freeway work zone delays and costs with a hybrid machine-learning model,” Journal of Advanced Transportation, 2017.DuBo“Predicting freeway work zone delays and costs with a hybrid machine-learning model,”2017Search in Google Scholar
Abdelmohsen, Z. Ahmed and Khaled El-Rayes, “Optimizing the planning of highway work zones to maximize safety and mobility,” Journal of Management in Engineering, Vol. 34, No. 1, 2018, pp. 04017048.AbdelmohsenZ. AhmedEl-RayesKhaled“Optimizing the planning of highway work zones to maximize safety and mobility,”341201804017048Search in Google Scholar
Hua, Xuedong, et al. “Control strategy optimization for two-lane highway lane-closure work zones,” Sustainability, Vol. 11, No. 17, 2019, pp. 4567.HuaXuedong“Control strategy optimization for two-lane highway lane-closure work zones,”111720194567Search in Google Scholar
Algomaiah, Majeed and Zhixia Li, “Exploring work zone late merge strategies with and without enabling connected vehicles technologies,” Transportation research interdisciplinary perspectives, Vol. 9, 2021, pp. 100316.AlgomaiahMajeedLiZhixia“Exploring work zone late merge strategies with and without enabling connected vehicles technologies,”92021100316Search in Google Scholar
Wu, Jianqing, et al. “Real-time queue length detection with roadside LiDAR data,” Sensors, Vol. 20, No. 8, 2020, pp. 2342.WuJianqing“Real-time queue length detection with roadside LiDAR data,”20820202342Search in Google Scholar
Duan, Ke, et al. “Study of improved signal-based merge strategy in work zone areas based on Cellular Automata simulation,” IET Intelligent Transport Systems, Vol. 16, No. 4, 2022), pp. 504–530.DuanKe“Study of improved signal-based merge strategy in work zone areas based on Cellular Automata simulation,”1642022504530Search in Google Scholar
Han, Xiaopeng, et al. “Analysis of the relationships between environmental noise and urban morphology,” Environmental pollution, Vol. 233, 2018, pp. 755–763.HanXiaopeng“Analysis of the relationships between environmental noise and urban morphology,”2332018755763Search in Google Scholar
Lee, Hsiao Mun, et al. “Traffic Noise Reduction Strategy in a Large City and an Analysis of Its Effect,” Applied Sciences, Vol. 12, No. 12, 2022, pp. 6027.LeeHsiao Mun“Traffic Noise Reduction Strategy in a Large City and an Analysis of Its Effect,”121220226027Search in Google Scholar
Park, Taeho, et al. “The public health impact of road-traffic noise in a highly-populated city, Republic of Korea: Annoyance and sleep disturbance,” Sustainability, Vol. 10, No. 8, 2018, pp. 2947.ParkTaeho“The public health impact of road-traffic noise in a highly-populated city, Republic of Korea: Annoyance and sleep disturbance,”10820182947Search in Google Scholar
Giunta and Marinella, “Assessment of the impact of co, nox and pm10 on air quality during road construction and operation phases,” Sustainability, Vol. 12, No. 24, 2020, pp. 10549.GiuntaMarinella“Assessment of the impact of co, nox and pm10 on air quality during road construction and operation phases,”1224202010549Search in Google Scholar
Ögren, Mikael, Peter Molnár and Lars Barregard, “Road traffic noise abatement scenarios in Gothenburg 2015–2035,” Environmental research, Vol. 164, 2018, pp. 516–521.ÖgrenMikaelMolnárPeterBarregardLars“Road traffic noise abatement scenarios in Gothenburg 2015–2035,”1642018516521Search in Google Scholar
Amin, Md, et al. “Understanding air pollution from induced traffic during and after the construction of a new highway: Case study of highway 25 in Montreal,” Journal of Advanced Transportation, 2017.AminMd“Understanding air pollution from induced traffic during and after the construction of a new highway: Case study of highway 25 in Montreal,”2017Search in Google Scholar
Nourani, Vahid, Hüseyin Gökçekuş and Ibrahim Khalil Umar, “Artificial intelligence based ensemble model for prediction of vehicular traffic noise,” Environmental research, Vol. 180, 2020, pp. 108852.NouraniVahidGökçekuşHüseyinUmarIbrahim Khalil“Artificial intelligence based ensemble model for prediction of vehicular traffic noise,”1802020108852Search in Google Scholar
C. Kim, et al. “Fuel consumption and greenhouse gas emissions from on-road vehicles on highway construction work zones,” International Conference on Transportation and Development 2018: Planning, Sustainability, and Infrastructure Systems. Reston, VA: American Society of Civil Engineers, 2018.KimC.“Fuel consumption and greenhouse gas emissions from on-road vehicles on highway construction work zones,”Reston, VAAmerican Society of Civil Engineers2018Search in Google Scholar
Du, Bo, I. Steven and J.Y. Chien, “Feasibility of shoulder use for highway work zone optimization,” Journal of traffic and transportation engineering (English edition), Vol. 1, No. 4, 2014, pp. 235–246.DuBoStevenI.ChienJ.Y.“Feasibility of shoulder use for highway work zone optimization,”142014235246Search in Google Scholar
Du, Shuming and Saiedeh Razavi, “Fault-tolerant control of variable speed limits for freeway work zone using likelihood estimation,” Advanced Engineering Informatics, Vol. 45, 2020, pp. 101133.DuShumingRazaviSaiedeh“Fault-tolerant control of variable speed limits for freeway work zone using likelihood estimation,”452020101133Search in Google Scholar
Song, Jinchao, et al. “Mapping spatio-temporal patterns and detecting the factors of traffic congestion with multi-source data fusion and mining techniques,” Computers, Environment and Urban Systems, Vol. 77, 2019, pp. 101364.SongJinchao“Mapping spatio-temporal patterns and detecting the factors of traffic congestion with multi-source data fusion and mining techniques,”772019101364Search in Google Scholar
Afrin, Tanzina and Nita Yodo, “A survey of road traffic congestion measures towards a sustainable and resilient transportation system,” Sustainability, Vol. 12, No. 11, 2020, pp. 4660.AfrinTanzinaYodoNita“A survey of road traffic congestion measures towards a sustainable and resilient transportation system,”121120204660Search in Google Scholar
Zheng, Hong, Eric Nava and Yi-Chang Chiu, “Measuring networkwide traffic delay in schedule optimization for work-zone planning in urban networks,” IEEE Transactions on Intelligent Transportation Systems, Vol. 15, No. 6, 2014, pp. 2595–2604.ZhengHongNavaEricChiuYi-Chang“Measuring networkwide traffic delay in schedule optimization for work-zone planning in urban networks,”156201425952604Search in Google Scholar
Rista, Emira, et al. “Work zone safety performance: Comparison of alternative traffic control strategies,” Transportation Research Record, Vol. 2617, No. 1, 2017, pp. 87–93.RistaEmira“Work zone safety performance: Comparison of alternative traffic control strategies,”2617120178793Search in Google Scholar
M.T. Çaldağ and E. Gökalp, “Exploring critical success factors for blockchain-based intelligent transportation systems,” 2020.ÇaldağM.T.GökalpE.2020Search in Google Scholar
I. Badshah, Z.H. Khan, T.A. Gulliver, K.S. Khattak and S. Saad, “Modeling Sustainable Traffic Behavior: Avoiding Congestion at a Stationary Bottleneck,” Civil Engineering Journal, Vol. 8, No. 11, 2022, pp. 2378–2390.BadshahI.KhanZ.H.GulliverT.A.KhattakK.S.SaadS.“Modeling Sustainable Traffic Behavior: Avoiding Congestion at a Stationary Bottleneck,”811202223782390Search in Google Scholar
S. Tahmasseby, “The Implementation of Smart Mobility for Smart Cities: A Case Study in Qatar,” Civil Engineering Journal, Vol. 8, No. 10, 2022, pp. 2154–2171.TahmassebyS.“The Implementation of Smart Mobility for Smart Cities: A Case Study in Qatar,”810202221542171Search in Google Scholar