Advanced search
Publication Cover
Journal of Transportation Safety & Security Volume 7, 2015 - Issue 3
Submit an article Journal homepage
837
Views
46
CrossRef citations to date
0
Altmetric
Original Articles

A Study on Driving Performance Along Horizontal Curves of Rural Roads

Alessandro CalviDepartment of Engineering, Roma Tre University, Rome, ItalyCorrespondence[email protected]
Pages 243-267 | Published online: 17 Dec 2014

References

  • American Association of State Highway Transportation Officials. (2010). Highway safety manual. Washington DC: American Association of State Highway and Transportation Officials.
  • Anderson, J.R., Matessa, M., & Lebiere, C. (1997). ACT-R: a theory of higher level cognition and its relation to visual attention. Human-Computer Interaction, 12(4), 439–462.
  • Bella, F. (2005). Validation of a driving simulator for work zone design. Transportation Research Record, 1937, 136–144.
  • Bella, F. (2008). Driving simulator for speed research on two-lane rural roads. Accident Analysis and Prevention, 40, 1078–1087.
  • Bella, F. (2009). Can driving simulators contribute to solving critical issues in geometric design? Transportation Research Record, 2138, 120–126.
  • Bella, F., & Calvi, A. (2013). Effects of simulated day and night driving on the speed differential in tangent-curve transition: A pilot study using driving simulator. Traffic Injury Prevention, 14(4), 413–423.
  • Bella, F., Calvi, A., & D’Amico, F. (2014a). Analysis of driver speeds under night driving conditions using a driving simulator. Journal of Safety Research, 49, 45–52.
  • Bella, F., Calvi, A., & D’Amico, F. (2014bPredictive speed models for two-lane rural roads using GPS equipment. International Journal of Mobile Network Design and Innovation.
  • Benedetto, A., Calvi, A., D’Amico, F., & Zakowska, L. (2009). The effect of curve characteristics on driving behavior: a driving simulator study. In Proceedings of 88th Annual Meeting of the Transportation Research Board. Washington, DC: Transportation Research Board.
  • Blaauw, G.J. (1982). Driving experience and task demands in simulator and instrumented car: A validation study. Human Factors, 24(4), 473–486.
  • Brenac, T. (1996). Safety at curves and road geometry standards in some European countries. Transportation Research Record, 1523, 99–106.
  • Calvi, A. (2010). Analysis of driver's behaviour in road tunnels: A driving simulation study. Progress in Safety Science and Technology, 8, 1892–1904.
  • Calvi A., Benedetto A., & Messina M. (2011). Potentialities of driving simulator for engineering applications to Formula 1. Advances in Transportation Studies, an International Journal, December, 127–138.
  • Calvi, A., Benedetto, A., & D’Amico, F. (2012). Effects of mobile telephone tasks on driving performance: a driving simulator study. Advances in Transportation Studies, an International Journal, 26, 29–44.
  • Calvi, A., Benedetto, A., & De Blasiis, M.R. (2012). A driving simulator study of driver performance on deceleration lanes. Accident Analysis and Prevention, 45, 195–203.
  • Calvi, A., & D’Amico, F. (2006). Quality control of road project: Identification and validation of a safety indicator. Advances in Transportation Studies, an International Journal, 9, 47–66.
  • Calvi, A., & D’Amico, F. (2013). A study of the effects of road tunnel on driver behavior and road safety using driving simulator. Advances in Transportation Studies, an International Journal, 30, 59–76.
  • Calvi, A., & De Blasiis, M.R. (2011). Driver behavior on acceleration lanes. Transportation Research Record, 2248, 96–103.
  • Calvi, A., De Blasiis, M.R., & Guattari, C. (2012). An empirical study of the effects of road tunnel on driving performance. Procedia Social and Behavioral Sciences, 53, 1099–1109.
  • Carsten, O. (2002). Multiple perspectives. In R. Fuller & J. A. Santos (Eds.), Human factors for highway engineers (pp. 11–22). New York: Pergamon, Elsevier Sciences.
  • Casolo, F., Cinquemani, S., & Cocetta, M. (2008). Road safety: Methods to predict the safety level of a freeway. Advances in Transportation Studies, an International Journal, 15, 51–62.
  • Charlton, S.G. (2007). The role of attention in horizontal curves: A comparison of advance warning, delineation, and road marking treatments. Accident Analysis and Prevention, 39(5), 873–885.
  • Choueiri, E.M., Lamm, R., Kloeckner, J.H., & Mailaender, T. (1994). Safety aspects of individual design elements and their interactions on two-lane highways: International perspective. Transportation Research Record, 1445, 34–46.
  • Comte, S.L., & Jamson, A.H. (2000). Traditional and innovative speed-reducing measures for curves: An investigation of driver behaviour using a driving simulator. Safety Science, 36(3), 137–150.
  • Craus, J., & Polus, A. (1977). Aspects of spiral transition curve design. Transportation Research Record, 631, 1–4.
  • Engström, J., & Aust, M.L. (2011). Adaptive behaviour in the simulator: Implications for active safety system evaluation. In D. Fisher, M. Rizzo, J. Lee, & J. Caird (Eds.), Handbook of driving simulation for engineering, medicine and psychology, Ch. 41 (pp. 1–15). Boca Raton, FL: CRC Press.
  • Findley, D.J., Hummer, J.E., Rasdorf, W., Zegeer, C.V., & Fowler, T.J. (2012). Modeling the impact of spatial relationships on horizontal curve safety. Accident Analysis and Prevention, 45, 296–304.
  • Geisser, S., & Greenhouse, S.W. (1958). An extension of boxes results on the use of the F distribution in multivariate analysis. Annals of Mathematical Statistics, 29, 885–891.
  • Guattari, M.C., De Blasiis, M.R., Calvi, A., & Benedetto, A. (2010). Calibration of an eye tracking system for variable message signs validation. Driver Behaviour and Training, 4, 297–306.
  • Hummer, J.E., Rasdorf, W., Findley, D.J., Zegeer, C.V., & Sundstrom, C.A. (2010). Curve collisions: road and collision characteristics and countermeasures. Journal of Transportation Safety and Security, 2(3), 203–210.
  • Kemeny, A., & Panerai, F. (2003). Evaluating perception in driving simulation experiments. Trends in Cognitive Sciences, 7(1), 31–37.
  • Lewis, C. (1993). Analyzing means from repeated measures data. In G. Keren & C. Lewis (Eds.), A handbook for data analysis in the behavioural sciences (pp. 73–94). Hillsdale, NJ: Erlbaum.
  • Martens, M., Comte, S., & Kaptein, N. (1997). The effects of road design on speed behaviour: a literature review (Deliverable D1 (Report 2.3.1), MASTER). Retrieved from http://virtual.vtt.fi/virtual/proj6/master/rep231.pdf
  • McGee, H.W., & Hanscom, F.R. (2006). Low-cost treatments for horizontal curve safety (FHWA-SA-07–002). . Retrieved from http://safety.fhwa.dot.gov/roadway_dept/horicurves/fhwasa07002/fhwasa07002.pdf.
  • McGehee, D.V., Lee, J.D., Rizzo, M., Dawson, J., & Bateman, K. (2004). Quantitative analysis of steering adaptation on a high performance fixed-base driving simulator. Transportation Research Part F: Traffic Psychology and Behaviour, 7, 181–196.
  • Ministry of the Infrastructures and Transports. (2001). Decreto Ministeriale del 5/11/2001 Norme funzionali e geometriche per la costruzione delle strade. [Functional and geometrical guidelines for road construction. In Italian.] Roma, Italy: Istituto Poligrafico dello Stato.
  • Moreno, A.T., & García, A. (2013). Use of speed profile as surrogate measure: Effect of traffic calming devices on crosstown road safety performance. Accident Analysis and Prevention, 61, 23–32.
  • National Highway Traffic Safety Administration. (2008). Fatality analysis reporting system. Retrieved from http://www-nrd.nhtsa.dot.gov/Pubs/811171.pdf
  • Perco, P. (2006). Desirable length of spiral curves for two-lane rural roads. Transportation Research Record, 1961, 1–8.
  • Pérez Zuriaga, A.M., García, A., Camacho Torregrosa, F.J., & D’Attoma, P. (2010). Use of GPS data to model operating speed and deceleration on two-lane rural roads. Transportation Research Record, 2171, 11–20.
  • Rosey, F., Auberlet, J., Bertrand, J., & Plainchault, P. (2008). Impact of perceptual treatments on lateral control during driving on crest vertical curves: A driving simulator study. Accident Analysis and Prevention, 40(4), 1513–1523.
  • Safetynet. (2009). Roads. Retrieved from http://www.dacota-project.eu/Links/erso/knowledge/Fixed/15_road/Roads.pdf
  • Said, D., El Halim, A.O. A., & Hassan, Y. (2009). Desirable spiral length based on driver steering behavior. Transportation Research Record, 2092, 28–38.
  • Srinivasa, R., Baek, J., Carter, D., Persaud, B., Lyon, C., Eccles, K., & Gross, F. (2009). Safety evaluation of improved curve delineation (FHWA-HRT-09–045). Retrieved from http://www.fhwa.dot.gov/publications/research/safety/09045/09045.pdf
  • Strathman, J.G., Duecker, K.J., Zhang, J., & Williams, T. (2001). Analysis of design attributes and crashes on the Oregon highway system (Publication FHWA-OR-RD-02–01). Washington, DC: U.S. Department of Transportation, Federal Highway Administration.
  • Takeshi, I., & Nozomu, M. (2005). Analysis of correlation between roadway alignment and traffic accidents. In Proceedings 3rd International Symposium on Highway Geometric Design, Chicago, IL, 29 June–1 July.
  • Törnos, J. (1998). Driving behaviour in a real and a simulated road-tunnel: A validation study. Accident Analysis and Prevention, 30(4), 497–503.
  • Van Winsum, W., & Gosthelp, H. (1996). Speed choice and steering behavior in curve driving. Human Factors, 38(3), 434–441.
  • Yan, X., Abdel-Aty, M., Radwan, E., Wang, X., & Chilakapati, P. (2008). Validating a driving simulator using surrogate safety measures. Accident Analysis and Prevention, 40, 274–288.
  • Zakowska, L. (2010, June 2–5). Operational and safety effects of transition curves in highway design - A driving simulator study. In 4th International Symposium on Highway Geometric Design, Valencia, Spain. . Retrieved from http://www.4ishgd.valencia.upv.es/index_archivos/27.pdf
  • Zegeer, C.V., Stewart, J.R., Council, F.M., Reinfurt, D.W., & Hamilton, E. (1992). Safety effects of geometric improvements on horizontal curves. Transportation Research Record, 1356, 11–19.
  • Zhao, X., Guan, W., & Liu, X. (2013). A pilot study verifying how the curve information impacts on the driver performance with cognition model. Discrete Dynamics in Nature and Society, 2013, Article number 316896. DOI: 10.1155/2013/316896.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.