Seite - (000341) - in Autonomes Fahren - Technische, rechtliche und gesellschaftliche Aspekte

Steuerung und Management in einem Verkehrssystem mit autonomen Fahrzeugen330 17. Krajzewicz, D, Erdmann, J., Behrisch, M, Bieker, L.: Recent Development and Applications of SUMO – Simulation of Urban MObility. International Journal On Advances in Systems and Measurements, 5, 128–138 (2012) 18. Wagner, P.: Analyzing fluctuations in car-following. Transportation Research Part B 46, 1384– 1392 (2012) 19. Jiang, R., Hu, M., Zhang, H.M., Gao, Z., Jia, B., Wu, Q., Wang, B., Yang, M.: Traffic Experiment Reveals the Nature of Car-Following. PLoS ONE 9: e94351. doi:10.1371/journal.pone.0094351 (2014) 20. Todosiev, E.P., L. C. Barbosa, L.C.: A proposed model for the driver-vehicle-system. Traffic Engineering, 34, 17–20, (1963/64) 21. Wagner, P.: A time-discrete harmonic oscillator model of human car-following. European Phys- ical Journal B 84, 713–718 (2011) 22. Webster, F.V.: Traffic Signal Settings. Department of Scientific And Industrial Research Road Research Laboratory, (1958) 23. Krajzewicz, D., Furian, N., Tomàs Vergés, J.: Großflächige Simulation von Verkehrsmanage- mentansätzen zur Reduktion von Schadstoffemissionen. 24. Verkehrswissenschaftliche Tage Dresden, Deutschland (2014) 24. OpenStreetMap: www.openstreetmap.org, letzter Zugriff am 29.7.2014 25. Oertel, R., Wagner, P.: Delay-Time Actuated Traffic Signal Control for an Isolated Intersection. In: Proceedings 90th Annual Meeting Transportation Research Board (TRB) (2011) 26. Gartner, N.H., Wagner, P.: Traffic flow characteristics on signalized arterials. Transportation Research Records 1883, 94–100 (2004)