TY - CHAP
T1 - Assessment of level of service on freeways by microscopic traffic simulation
AU - Geistefeldt, Justin
AU - Giuliani, Stefan
AU - Vortisch, Peter
AU - Leyn, Ulrike
AU - Trapp, Roland
AU - Busch, Fritz
AU - Rascher, Andrea
AU - Celikkaya, Nihan
PY - 2014
Y1 - 2014
N2 - Analytical methods for the assessment of traffic flow quality on freeways are valid for standard types of basic, merge, diverge, and weaving segments. For more complex freeway facilities, microscopic traffic flow simulation is widely used. In this case, the definition and the computation of the level of service must be compatible with the analytical methods. For the forthcoming edition of the German Highway Capacity Manual, standards and user guidance for the application of microscopic traffic flow simulation tools for quality of service assessment on freeways were developed. For typical freeway segments, standard parameter sets for the simulation tools VISSIM, AIMSUN, PARAMICS, BABSIM, and Simulation of Urban Mobility were developed. This study applied these simulation tools for a diverge with a two-lane exit ramp. The results show that the simulation results represent the manual's design capacities well.
AB - Analytical methods for the assessment of traffic flow quality on freeways are valid for standard types of basic, merge, diverge, and weaving segments. For more complex freeway facilities, microscopic traffic flow simulation is widely used. In this case, the definition and the computation of the level of service must be compatible with the analytical methods. For the forthcoming edition of the German Highway Capacity Manual, standards and user guidance for the application of microscopic traffic flow simulation tools for quality of service assessment on freeways were developed. For typical freeway segments, standard parameter sets for the simulation tools VISSIM, AIMSUN, PARAMICS, BABSIM, and Simulation of Urban Mobility were developed. This study applied these simulation tools for a diverge with a two-lane exit ramp. The results show that the simulation results represent the manual's design capacities well.
UR - http://www.scopus.com/inward/record.url?scp=84938596940&partnerID=8YFLogxK
U2 - 10.3141/2461-06
DO - 10.3141/2461-06
M3 - Chapter
AN - SCOPUS:84938596940
VL - 2461
SP - 41
EP - 49
BT - Transportation Research Record
PB - National Research Council
ER -