在多值元胞自动机模型(EBCA2模型)的基础上,首先,对最大速度进行了扩展,并引入车辆的加速过程,建立了适用于人力自行车、电动自行车和摩托车的多值元胞自动机交通流模型。然后,对改进模型和非机动车两值元胞自动机模型进行了仿真对比分析。最后,利用改进模型分别模拟了两轮车在不同的最大速度、最大加速度和车辆的慢化行为下的交通流,并分析了这些参数对交通流的影响。仿真结果表明:与两值元胞自动机模型相比,在保证车流的流量-密度-速度特性不受影响的情况下,改进模型大大增加了其仿真速度;车辆的加速过程、慢化车辆数和低速车辆慢化行为都会对系统交通流产生一定影响,加速度变化对交通流影响较大,不同速度下的随机慢化行为对交通流的影响不同。
On the basis of multi-value cellular automaton (EBCA2) model, first, we extended the maximum velocity of simulation object and introduced the vehicle accelerating process to build a multi-value cellular automaton traffic flow model which can be applicable to human-powered bicycle, electric bicycle and motorcycle. Then, we simulated and comparatively analysed the improved model and the non-motorized vehicle two-value cellular automaton model. Finally, with the help of the improved model, we simulated the traffic flows of two-wheeled vehicle with different maximum velocities, accelerations and stochastic deceleration behaviors. Meanwhile, we analysed the influence of these parameter on traffic flow. The simulation result shows that ( 1 ) compared with the two-value cellular automaton model, the simulation speed of improved model is greatly increased when the volume-density-velocity characteristic of traffic flow is not affected ; (2) the acceleration process, the number of decelerated vehicles, and the deceleration behaviors of low-speed vehicles have significant influences on the traffic flow, among which the change of acceleration has the most effect; (3) the effects of stochastic deceleration behaviors on the traffic flow under different velocities is different.