Title :
Highway Traffic Flow Equation Depending on DTCA
Author :
AlGhamdi, A.S. ; Eren, H.
Author_Institution :
IEEE, Curtin Univ., Perth, WA, Australia
Abstract :
This paper discusses Dynamic Traffic Cellular Automata (DTCA) model. It integrates acceleration, deceleration, and reaction probability functions. The effects of these probability functions on the traffic flow has been explained and shown that they have a major impact on the prediction of traffic flow. This mathematical approach has been verified by simulations.
Keywords :
acceleration; cellular automata; probability; road traffic; DTCA; acceleration probability functions; deceleration probability functions; dynamic traffic cellular automata model; highway traffic flow equation; mathematical approach; reaction probability functions; Acceleration; Equations; Mathematical model; Road transportation; Standards; Vehicle dynamics; Vehicles; Acceleration; Acceleration factor; Congestion; Deceleration factor; Highway; Traffic flow; Traffic system; Velocity;
Conference_Titel :
Human System Interactions (HSI), 2012 5th International Conference on
Conference_Location :
Perth, WA
Print_ISBN :
978-1-4673-4498-2
DOI :
10.1109/HSI.2012.27
