FESTA handbook References

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11. References

Aarts, L. and van Schagen, I. (2006). Driving speed and the risk of road crashes: a review. Accident Analysis and Prevention, 38, pp. 215-224.

Abhishek, V. (2008). European Telematics & ITS. A progress report on V2X communication in Europe.

Ajzen, I., & Fishbein, M. (1980). Understanding attitudes and predicting social behavior. Englewood Cliffs, NJ: Prentice-Hall.

Armstrong, M. (1999). A handbook of Human Resource Management Practice. London,

Kogan Page.

Antin, J., Lee, S., Hankey, J., and Dingus, T. (2011). Design of the In-Vehicle Driving Behavior and Crash Risk Study. In Support of the SHRP 2 Naturalistic Driving Study. SHRP2 Report S2-S05-RR-1, ISBN: 978-0-309-12895-7, National Academy of Sciences.

Assing, K., Baum, H., Bühne, J.-A., Geißler, T., Grawenhoff, S., Peters, H., Schulz, W. H. and Westerkamp, U. (2006). Methodological framework and database for socio-economic evaluation of Intelligent Vehicle Safety Systems. Deliverable D3, eIMPACT: Socio-economic impact assessment of stand-alone and co-operative Intelligent Vehicle Safety Systems (IVSS) in Europe, EU 6th Framework Programme Contract no.: 027421. TNO, Delft. www.eimpact.eu

BASt, DITS, KuSS, TRL, UOC and CDV (2005). Road safety and Environmental Benefit-Cost and Cost-Effectiveness Analysis for Use in Decision Making, Deliverable D7. Funded by EC DG-TREN, under project GTC2/2000/33020. http://partnet.vtt.fi/rosebud/index.html

Batelle Memorial Institute (2003). Evaluation of the Freightliner Intelligent Vehicle Initiative Field Operational Test, Final Report to the US Department of Transportation, Project DTFH61-96-C-00077 Workorder 7718. USDoT, Washington DC. http://www.itsdocs.fhwa.dot.gov//JPODOCS/REPTS_TE//13871.html

Baum, H., Geißler, T., Grawenhoff, S., Schulz, W. H. (2006). Cost-Benefit Analyses of Intelligent Vehicle Safety Systems – some empirical case studies. Zeitschrift für Verkehrswissenschaft. 77(3), pp. 226-254.

Baum, H., Grawenhoff, S. and Geißler, T. (2007). Cost-Benefit-Analysis of the Electronic Stability Program (ESP). Summary Report. Institute for Transport Economics, University of Cologne.

Besseling, H. and van Boxtel, A. (2001). Intelligent Speed Adaptation — Results of the Dutch ISA Tilburg trial. Ministry of Transport, Public Works, and Water management, AVV Transport Research Center.

Bickel, P., Friedrich, R., Burgess, A., Fagiani, P., Hunt, A., De Jong, G., Laird, J., Lieb, C., Lindberg, G., Mackie, P., Navrud, S., Odgaard, T., Ricci, A., Shires, J., Tavasszy, L. (2006). Developing Harmonised European Approaches for Transport Costing and Project Assessment, HEATCO Deliverable 5. Germany. http://heatco.ier.uni-stuttgart.de/

Boyle, L. N., Lee, J. D., Neyens, D. M., McGehee, D. V., Hallmark, S., & Ward, N. J.

(2009). SHRP2 S02 Integration of analysis methods and development of analysis plan. Phase 1 Report. University of Iowa, Iowa City, IA.

Carsten, O, Fowkes, M., Lai, F., Chorlton, K., Jamson, S., Tate, F. and Simpkin, B. (2008). ISA-UK: Final Report. Institute for Transport Studies, University of Leeds.

Castells M. (2001) The Internet Galaxy: Reflections on the Internet, Business and Society. Oxford University Press, 2001

Cochran W. G. (1977). Sampling techniques. 3rd edition. Wiley & Sons, New York.

COWI, ECN, Ernst & Young Europe, ECORYS (2006). Cost Benefit assessment and prioritisation of vehicle safety technologies. Final Report.

Dingus, T. A., Klauer, S. G., Neale, V. L., Petersen, A., Lee, S. E., Sudweeks, J., Perez, M. A., Hankey, J., Ramsey, D., Gupta, S., Bucher, C., Doerzaph, Z. R., Jermeland, J., and Knipling, R. R. The 100-Car Naturalistic Driving Study, Phase II — Results of the 100-Car Field Experiment Virginia Tech Transportation Institute, Blacksburg, VA, NHTSA DOT HS 810 593.

Draft ETSI EN 302 637-2 V1.3.0 (2013-08): Intelligent Transport Systems (ITS); Vehicular Communications; Basic Set of Applications; Part 2: Specification of Cooperative Awareness Basic Service

Draft ETSI EN 302 637-3 Intelligent Transport Systems (ITS); Vehicular Communications;Basic Set of Applications; Part 3: Specifications of Decentralized Environmental Notification Basic Service

Draskóczy, M., Carsten, O. and Kulmala, R. (1998). Road safety guidelines. Deliverable B5.2 of CODE project (TR1103). Atkins Wootton Jeffreys, Birmingham, UK. Available at: http://cordis.europa.eu/telematics/tap_transport/library/code-b5-2.html.

Ehrlich, J. et al. (2003). LAVIA, The French ISA project: main issues and first technical results, the French ISA project. Proceedings of the 10th World Congress on Intelligent Transport Systems. Madrid, Spain, 16-19 November 2003.

Elvik, R., Christensen, P. and Amundsen, A. (2004). Speed and road accidents: an evaluation of the Power Model. TOI Research Report 740/2004, Institute of Transport Economics, Oslo.

Ervin, R. D., Sayer, J., LeBlanc, D., Bogard, S., Mefford, M., Hagan, M., Bareket, Z., Winkler, C. (2005). Automotive collision avoidance system field operational test methodology and results, Volume 1: Technical Report. UMTRI-2005-7-1; University of Michigan, Ann Arbor, Transportation Research Institute.

ETSI EN 302 663 V1.2.1 (2013-07) Access layer specification for Intelligent Transport Systems operating in the 5 GHz frequency band

ESOP 99 Commission of the European Communities (1999). Commission Recommendation of 21 December 1999 on safe and efficient in-vehicle information and communication systems: A European statement of principles on human machine interface. Doc. no. C(1999) 4786, 2000/53/EC.

Everitt, B. and Dunn, F. (2000). Applied multivariate data analysis. Arnold Publication.

Faber, F., Jonkers, E., Ljung Aust, M., Benmimoun, M., Regan, M., Jamson, S., Dobberstein, J. (2011). EuroFOT Deliverable 6.2, Analysis methods for user related aspects and impact assessment on traffic safety, traffic efficiency and environment. June 30 2011.

Fancher, P., Ervin, R., Sayer, J., Hagan, M., Bogard, S., Bareket, Z., Mefford, M. & Haugen, J. (1998). Intelligent Cruise Control Field Operational Test. Final Report UMTRI-98-17; University of Michigan, Ann Arbor, Transportation Research Institute.

Featherman MS, Pavlou PA (2003). Predicting e-Services Adoption: A Perceived Risk Facets Perspective. Int. J. Hum. Comput. Stud. 59(1)

FGSV (2001). Forschungsgruppe für Strassen- und Verkehrswesen. Handbuch für die Bemessung von Straßenverkehrsanlagen. FGSV, Köln. http://www.fgsv.de/

Fitch, G. M., H. A. Rakha, et al. (2008). Safety Benefit Evaluation of a Forward Collision Warning System, US DOT, NHTSA, Report No DOT HS 810 910, Washington, D.C..

FOT-Net 2 D3.2: Working Group Additions to FOT Methodology

Gibbons, J. D. and Chakraborti, S. (2003). Nonparametric statistical inference. 4th edition. CRC.

Goldstein, H. (2003). Multilevel statistical models. 3rd edition, Arnold, London.

Grudin, J. (1992) Utility and usability: research issues and development contexts. Interacting with Computers, Volume 4, Issue 2, August 1992, Pages 209-217

Hanowski, R. J., M. Blanco, et al. (2008). The Drowsy Driver Warning System Field Operational Test: Data Collection Methods, Virginia Tech Transportation Institute.

HCM (2000). Highway Capacity Manual. Transportation Research Board, Washington D.C.

Hjälmdahl, M., Várhelyi, A. (2003). Speed regulation by in-car active accelerator pedal effects on driver behaviour. Transportation Research Part F. Vol. 7, Issue 2, pp. 77-94.

ITF (2008). The International Road Traffic and Accident Database (IRTAD). www.irtad.net

Jacobson, I., Bylund, S., Jonsson, P., and Ehneboom, S. (1995), “Modeling with Use Cases: Using contracts and use cases to build plugable architectures”. Journal of Object Oriented Programming, Vol. 8, No. 2, pp. 18-24.

Jamson, S., Chorlton, K, Gelau, G., Schindhelm, R., Johansson, E., Karlsson, A-S, Metz, B,, Tadei, R., Benmimoun, M., Val, C., Regan, M., Wilschut, E. Brouwer, R. (2009). Experimental Procedures. Deliverable 4.2 of EuroFOT. Ford Research & Advanced Engineering Europe, Aachen, Germany.

Kato, K. et al. (1999). Plan for verification experiments of advanced cruise-assist highway system (AHS) in Japan. Proceedings of 6th World Congress on Intelligent Transport Systems (ITS), held Toronto, Canada; http://www.ahsra.or.jp/eng/d01e/index.html

Lassarre, S. and Saad, F. (2006). Présentation générale du dispositif expérimental: justification des choix. In: Carnet de route du LAVIA. Limiteur s'adaptant à la vitesse autorisée. Paris: Actes du colloque LAVIA, pp. 11-17.

Lassarre, S. and Romon, S. (2006). Utilization du LAVIA et influence sur les vitesses pratiquées en vue de l’évaluation de l’utilité. In: Carnet de route du LAVIA. Limiteur s'adaptant à la vitesse autorisée. Paris: Actes du colloque LAVIA, pp. 53-60.

Lebart, L., Morineau, A. and Piron, M. (1997). Statistique exploratoire multidimensionnelle. Dunod, Paris.

Lecoutre, J. P. and Tassi, P. (1987). Statistique non paramétrique et robustesse. Econometrica, Paris.

Li, B. (2004). The latest development of intelligent highway system in China. Proceedings of the 11th World Congress on ITS, Nagoya, Japan.

D. Mans, E. Jonkers, I. Giannelos, D. Palanciuc (2013). Scaling up methodology for CO2 emissions of ICT applications in traffic and transport in Europe. ITS Europe congress in Dublin, 2013.

Michon, J. A. (1985). A critical view of driver behaviour models: what do we know, what should we do? In: L. Evans and R. C. Schwing (Eds.). Human Behaviour and Traffic Safety, pp. 485-524. New York: Plenum Press.

Najm, W. G., Stearns, M. D., Howarth, H., Koopman J. and Hitz, J. (2006). Evaluation of an automotive rear-end collision avoidance system. DOT HS 810 569. DOT VNTSC-NHTSA-06-01. Washington, DC: U.S. Department of Transportation, National Highway Traffic Safety Administration.

Nellthorp, J., Mackie, P.J. and Bristow, A.L. (1998) Measurement and Valuation of the Impacts of Transport Initiatives, Deliverable D9, EUNET Project, EI Fourth Framework RTD Programme. ITS, University of Leeds, Leeds, UK.

NHTSA Benefits Working Group (1996). Preliminary Assessment of Crash Avoidance Systems Benefits. NHTSA, Washington D.C. http://www.trb.org/news/blurb_detail.asp?id=1166

Nielsen, J. (1993). Usability engineering. Boston, MA: Morgan Kaufmann Publishers.

Nilsson, G. (2004). Traffic safety dimensions and the power model to describe the effect of speed on safety. Bulletin 221. Lund Institute of Technology, Lund University. http://www.lub.lu.se/luft/diss/tec_733/tec_733.pdf

Oguri, Y. (2007). Viewing traffic safety issues from victims’ standpoints – developing wider social acceptance of safe speed initiatives. ICTCT Extra Workshop, Beijing.

Olson, R. L., Hanowski, R. J., Hickman, J. S., and Bocanegra, J. (2009). Driver Distraction in Commercial Vehicle Operations. FMCSA DTMC75-07-D-00006

Orban, J., Hadden, J., Stark, G. and Brown, V. (2006). Evaluation of the mack intelligent vehicle initiative Field Operational Test; Final Report. FMCSA-06-016. Batelle, Columbus, Ohio.

Özkan, T. and Lajunen, T. (2005). Multidimensional traffic locus of control scale (T‐LOC): factor structure and relationship to risky driving. Personality and Individual Differences,38, 533‐545

Page, J. (2004). A final technical report on the Belgian intelligent speed adaptation (ISA) trial. 11th World Congress on ITS in Nagoya, Japan. IBSR-Report V05/04 available in French and Dutch.

Polit, D.F., Beck, C.T. and Hungler, B.P. (2001), Essentials of Nursing Research: Methods, Appraisal and Utilization. 5th Ed., Philadelphia: Lippincott Williams & Wilkins

ProgTrans (2004). European Transport Report. Basel.

Regan, M. A., Lee, J. D., and Young, K. L. (2008). Driver distraction: Theory, effects and mitigation. Florida, USA: CRC Press. (In Press – available October 2008).

Regan, M., Triggs, T., Young, K., Tomasevic, N., Mitsopoulos, E., Stephan, K., and Tingvall, C. (2006). On-road evaluation of intelligent speed adaptation, following distance warning and seatbelt reminder systems: Final Results of the Australian TAC SafeCar Project. Volume 1: Report. Monash University Accident Research Centre Report 253. MUARC: Melbourne, Australia. http://www.monash.edu.au/muarc/reports/muarc253.html

Saad, F. (1997). Contribution of observation and verbal report techniques to an analysis of road situations and drivers' activity. In: T. Rothengatter and Carbonell Vaya (Eds.). Traffic and Transport Psychology, Theory and Application, pp. 183-192. Pergamon.

Saad, F. (2006). Some critical issues when studying behavioural adaptations to new driver support systems. Cognition, Technology and Work, 8, pp. 175-181.

Saad, F. and Dionisio, C. (2007). Pre-evaluation of the “Mandatory Active” LAVIA: assessment of usability, utility and acceptance. In: Proceedings of the 14th World Congress and Exhibition on Intelligent Transport Systems and Services. 8-12 October 2007, Beijing, Paper 2257.

Sagberg, F, et al (2011). Recommendations for a large-scale European naturalistic driving observation study. PROLOGUE Deliverable D4.1. Grant agreement no. 233597.

Sanghoon, B. (1998). Evaluation of ITS Field Operational Test in Kwachon Korea. The 5th ITS World Congress, Seoul, Korea, October 12-16, 1998.

Sanghoon, B. (1998): Issues and lessons learned from ITS Field Operational Test in Korea. The 1st Asia Pacific Conference on Transportation and the Environment, Singapore, May 13-15.

Särndahl, C.-E., Swensson, B. and Wretman, J. (1992). Model assisted survey sampling. Springer Verlag.

Shakel, B. and Richardson,S.J. (1991) Human factors for informatics usability. Cambridge University Press

Taylor H. and Karlin S. (1994). An introduction to stochastic modeling. Academic Press.

Technische Universiteit Delft, Faculteit Civiele Techniek en Geowetenschappen, Afdeling Transport & Planning (2008). Full Traffic – WP Dataloggers & WP Verkeersimpact. TU Delft, Netherlands.

University of Michigan Transportation Research Institute (UMTRI), Visteon Corporation and AssistWare Technology Inc. (2006). Road Departure Crash Warning System Field Operational Test: Methodology and Results. Volume 1: Technical Report and Volume 2: Appendices. NHTSA, Washington D.C. http://deepblue.lib.umich.edu/bitstream/2027.42/49242/1/99788.pdf and http://deepblue.lib.umich.edu/bitstream/2027.42/49242/1/99789.pdf

U.S. Department for Transportation (2005). Volvo Trucks Field Operational Test: Evaluation of Advanced Safety Systems for heavy truck tractors. Final Report. DTFH61-99-X-00102. Washington, DC: US DOT Federal Highway Administration.

U.S. Department of Transportation, NHTSA (2006). Automotive Collision Avoidance System Field Operational Test Report: Methodology and Results. http://deepblue.lib.umich.edu/bitstream/2027.42/49539/1/99798.pdf

Van Noort, M., Faber, F., Bakri, T. (2012). EuroFOT Safety impact assessment method and results. 91st Annual Meeting of the Transportation Research Board, Washington D.C., January 2012.

VDI/VDE-IT and ITE University of Cologne (2005). Exploratory Study on the potential socio-economic impact of the introduction of Intelligent Safety Systems in Road Vehicles (SEiSS). Final Report to the European Commission DG Information Society and Media. www.esafetysupport.org/en/esafety_activities/related_studies_and_reports

Victor, T., et al (2010). Sweden-Michigan Naturalistic Field Operational Test (SeMiFOT) Phase 1: Final Report. SAFER Report 2010:02. Göteborg, Sweden.

Volvo Trucks North America Inc (2007). Volvo Trucks Field Operational Test: Evaluation of Advanced Safety Systems for heavy truck tractors. Final Report to US Department of Transportation, Federal Highway Administration, Cooperative Agreement No. DTFH61-99-X-00102. USDoT, Washington DC. http://wiki.fot-net.eu/index.php?title=Volvo_Intelligent_Vehicle_Initiative_Field_Operational_Test Wannacott, T. and Wannacott, R. (1990). Introductory statistics for business and economics. 4th edition. John Wiley & Sons.

Wasserman L. (2007). All of nonparametric statistics. Springer.

Wilmink, I., Janssen, W. Jonkers, E., Malone, K., van Noort, M., Klunder, G., Rämä, P., Sihvola, N., Kulmala, R., Schirokoff, A., Lind, G., Benz, T., Peters, H., Schonebeck, S. (2008). Socio-economic Impact Assessment of Stand-Alone and Co-operative Intelligent Vehicle Safety Systems (IVSS) in Europe. Deliverable D4. eIMPACT: Socio-economic Impact Assessment of stand-alone and co-operative Intelligent Vehicle Safety Systems (IVSS) in Europe, EU 6th Framework Programme. TNO, Delft, 2008. http://www.eimpact.eu Polit